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255 lines
6.9 KiB
Go
255 lines
6.9 KiB
Go
// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package natlab
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import (
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"context"
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"fmt"
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"net"
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"sync"
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"time"
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"inet.af/netaddr"
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)
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// mapping is the state of an allocated NAT session.
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type mapping struct {
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lanSrc netaddr.IPPort
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lanDst netaddr.IPPort
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wanSrc netaddr.IPPort
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deadline time.Time
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// pc is a PacketConn that reserves an outbound port on the NAT's
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// WAN interface. We do this because ListenPacket already has
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// random port selection logic built in. Additionally this means
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// that concurrent use of ListenPacket for connections originating
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// from the NAT box won't conflict with NAT mappings, since both
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// use PacketConn to reserve ports on the machine.
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pc net.PacketConn
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}
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// NATType is the mapping behavior of a NAT device. Values express
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// different modes defined by RFC 4787.
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type NATType int
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const (
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// EndpointIndependentNAT specifies a destination endpoint
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// independent NAT. All traffic from a source ip:port gets mapped
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// to a single WAN ip:port.
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EndpointIndependentNAT NATType = iota
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// AddressDependentNAT specifies a destination address dependent
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// NAT. Every distinct destination IP gets its own WAN ip:port
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// allocation.
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AddressDependentNAT
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// AddressAndPortDependentNAT specifies a destination
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// address-and-port dependent NAT. Every distinct destination
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// ip:port gets its own WAN ip:port allocation.
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AddressAndPortDependentNAT
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)
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// natKey is the lookup key for a NAT session. While it contains a
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// 4-tuple ({src,dst} {ip,port}), some NATTypes will zero out some
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// fields, so in practice the key is either a 2-tuple (src only),
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// 3-tuple (src ip+port and dst ip) or 4-tuple (src+dst ip+port).
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type natKey struct {
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src, dst netaddr.IPPort
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}
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func (t NATType) key(src, dst netaddr.IPPort) natKey {
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k := natKey{src: src}
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switch t {
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case EndpointIndependentNAT:
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case AddressDependentNAT:
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k.dst = k.dst.WithIP(dst.IP())
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case AddressAndPortDependentNAT:
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k.dst = dst
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default:
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panic(fmt.Sprintf("unknown NAT type %v", t))
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}
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return k
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}
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// DefaultMappingTimeout is the default timeout for a NAT mapping.
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const DefaultMappingTimeout = 30 * time.Second
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// SNAT44 implements an IPv4-to-IPv4 source NAT (SNAT) translator, with
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// optional builtin firewall.
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type SNAT44 struct {
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// Machine is the machine to which this NAT is attached. Altered
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// packets are injected back into this Machine for processing.
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Machine *Machine
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// ExternalInterface is the "WAN" interface of Machine. Packets
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// from other sources get NATed onto this interface.
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ExternalInterface *Interface
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// Type specifies the mapping allocation behavior for this NAT.
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Type NATType
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// MappingTimeout is the lifetime of individual NAT sessions. Once
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// a session expires, the mapped port effectively "closes" to new
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// traffic. If MappingTimeout is 0, DefaultMappingTimeout is used.
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MappingTimeout time.Duration
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// Firewall is an optional packet handler that will be invoked as
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// a firewall during NAT translation. The firewall always sees
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// packets in their "LAN form", i.e. before translation in the
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// outbound direction and after translation in the inbound
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// direction.
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Firewall PacketHandler
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// TimeNow is a function that returns the current time. If
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// nil, time.Now is used.
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TimeNow func() time.Time
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mu sync.Mutex
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byLAN map[natKey]*mapping // lookup by outbound packet tuple
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byWAN map[netaddr.IPPort]*mapping // lookup by wan ip:port only
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}
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func (n *SNAT44) timeNow() time.Time {
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if n.TimeNow != nil {
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return n.TimeNow()
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}
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return time.Now()
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}
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func (n *SNAT44) mappingTimeout() time.Duration {
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if n.MappingTimeout == 0 {
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return DefaultMappingTimeout
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}
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return n.MappingTimeout
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}
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func (n *SNAT44) initLocked() {
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if n.byLAN == nil {
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n.byLAN = map[natKey]*mapping{}
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n.byWAN = map[netaddr.IPPort]*mapping{}
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}
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if n.ExternalInterface.Machine() != n.Machine {
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panic(fmt.Sprintf("NAT given interface %s that is not part of given machine %s", n.ExternalInterface, n.Machine.Name))
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}
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}
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func (n *SNAT44) HandleOut(p *Packet, oif *Interface) *Packet {
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// NATs don't affect locally originated packets.
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if n.Firewall != nil {
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return n.Firewall.HandleOut(p, oif)
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}
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return p
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}
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func (n *SNAT44) HandleIn(p *Packet, iif *Interface) *Packet {
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if iif != n.ExternalInterface {
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// NAT can't apply, defer to firewall.
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if n.Firewall != nil {
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return n.Firewall.HandleIn(p, iif)
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}
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return p
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}
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n.mu.Lock()
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defer n.mu.Unlock()
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n.initLocked()
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now := n.timeNow()
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mapping := n.byWAN[p.Dst]
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if mapping == nil || now.After(mapping.deadline) {
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// NAT didn't hit, defer to firewall or allow in for local
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// socket handling.
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if n.Firewall != nil {
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return n.Firewall.HandleIn(p, iif)
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}
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return p
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}
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p.Dst = mapping.lanSrc
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p.Trace("dnat to %v", p.Dst)
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// Don't process firewall here. We mutated the packet such that
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// it's no longer destined locally, so we'll get reinvoked as
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// HandleForward and need to process the altered packet there.
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return p
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}
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func (n *SNAT44) HandleForward(p *Packet, iif, oif *Interface) *Packet {
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switch {
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case oif == n.ExternalInterface:
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if p.Src.IP() == oif.V4() {
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// Packet already NATed and is just retraversing Forward,
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// don't touch it again.
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return p
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}
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if n.Firewall != nil {
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p2 := n.Firewall.HandleForward(p, iif, oif)
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if p2 == nil {
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// firewall dropped, done
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return nil
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}
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if !p.Equivalent(p2) {
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// firewall mutated packet? Weird, but okay.
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return p2
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}
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}
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n.mu.Lock()
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defer n.mu.Unlock()
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n.initLocked()
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k := n.Type.key(p.Src, p.Dst)
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now := n.timeNow()
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m := n.byLAN[k]
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if m == nil || now.After(m.deadline) {
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pc, wanAddr := n.allocateMappedPort()
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m = &mapping{
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lanSrc: p.Src,
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lanDst: p.Dst,
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wanSrc: wanAddr,
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pc: pc,
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}
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n.byLAN[k] = m
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n.byWAN[wanAddr] = m
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}
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m.deadline = now.Add(n.mappingTimeout())
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p.Src = m.wanSrc
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p.Trace("snat from %v", p.Src)
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return p
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case iif == n.ExternalInterface:
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// Packet was already un-NAT-ed, we just need to either
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// firewall it or let it through.
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if n.Firewall != nil {
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return n.Firewall.HandleForward(p, iif, oif)
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}
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return p
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default:
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// No NAT applies, invoke firewall or drop.
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if n.Firewall != nil {
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return n.Firewall.HandleForward(p, iif, oif)
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}
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return nil
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}
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}
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func (n *SNAT44) allocateMappedPort() (net.PacketConn, netaddr.IPPort) {
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// Clean up old entries before trying to allocate, to free up any
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// expired ports.
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n.gc()
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ip := n.ExternalInterface.V4()
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pc, err := n.Machine.ListenPacket(context.Background(), "udp", net.JoinHostPort(ip.String(), "0"))
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if err != nil {
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panic(fmt.Sprintf("ran out of NAT ports: %v", err))
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}
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addr := netaddr.IPPortFrom(ip, uint16(pc.LocalAddr().(*net.UDPAddr).Port))
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return pc, addr
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}
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func (n *SNAT44) gc() {
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now := n.timeNow()
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for _, m := range n.byLAN {
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if !now.After(m.deadline) {
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continue
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}
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m.pc.Close()
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delete(n.byLAN, n.Type.key(m.lanSrc, m.lanDst))
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delete(n.byWAN, m.wanSrc)
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}
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}
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