tailscale/tstest/natlab/firewall.go
Will Norris 71029cea2d all: update copyright and license headers
This updates all source files to use a new standard header for copyright
and license declaration.  Notably, copyright no longer includes a date,
and we now use the standard SPDX-License-Identifier header.

This commit was done almost entirely mechanically with perl, and then
some minimal manual fixes.

Updates #6865

Signed-off-by: Will Norris <will@tailscale.com>
2023-01-27 15:36:29 -08:00

157 lines
4.7 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package natlab
import (
"fmt"
"net/netip"
"sync"
"time"
"tailscale.com/util/mak"
)
// FirewallType is the type of filtering a stateful firewall
// does. Values express different modes defined by RFC 4787.
type FirewallType int
const (
// AddressAndPortDependentFirewall specifies a destination
// address-and-port dependent firewall. Outbound traffic to an
// ip:port authorizes traffic from that ip:port exactly, and
// nothing else.
AddressAndPortDependentFirewall FirewallType = iota
// AddressDependentFirewall specifies a destination address
// dependent firewall. Once outbound traffic has been seen to an
// IP address, that IP address can talk back from any port.
AddressDependentFirewall
// EndpointIndependentFirewall specifies a destination endpoint
// independent firewall. Once outbound traffic has been seen from
// a source, anyone can talk back to that source.
EndpointIndependentFirewall
)
// fwKey is the lookup key for a firewall session. While it contains a
// 4-tuple ({src,dst} {ip,port}), some FirewallTypes will zero out
// some fields, so in practice the key is either a 2-tuple (src only),
// 3-tuple (src ip+port and dst ip) or 4-tuple (src+dst ip+port).
type fwKey struct {
src netip.AddrPort
dst netip.AddrPort
}
// key returns an fwKey for the given src and dst, trimmed according
// to the FirewallType. fwKeys are always constructed from the
// "outbound" point of view (i.e. src is the "trusted" side of the
// world), it's the caller's responsibility to swap src and dst in the
// call to key when processing packets inbound from the "untrusted"
// world.
func (s FirewallType) key(src, dst netip.AddrPort) fwKey {
k := fwKey{src: src}
switch s {
case EndpointIndependentFirewall:
case AddressDependentFirewall:
k.dst = netip.AddrPortFrom(dst.Addr(), k.dst.Port())
case AddressAndPortDependentFirewall:
k.dst = dst
default:
panic(fmt.Sprintf("unknown firewall selectivity %v", s))
}
return k
}
// DefaultSessionTimeout is the default timeout for a firewall
// session.
const DefaultSessionTimeout = 30 * time.Second
// Firewall is a simple stateful firewall that allows all outbound
// traffic and filters inbound traffic based on recently seen outbound
// traffic. Its HandlePacket method should be attached to a Machine to
// give it a stateful firewall.
type Firewall struct {
// SessionTimeout is the lifetime of idle sessions in the firewall
// state. Packets transiting from the TrustedInterface reset the
// session lifetime to SessionTimeout. If zero,
// DefaultSessionTimeout is used.
SessionTimeout time.Duration
// Type specifies how precisely return traffic must match
// previously seen outbound traffic to be allowed. Defaults to
// AddressAndPortDependentFirewall.
Type FirewallType
// TrustedInterface is an optional interface that is considered
// trusted in addition to PacketConns local to the Machine. All
// other interfaces can only respond to traffic from
// TrustedInterface or the local host.
TrustedInterface *Interface
// TimeNow is a function returning the current time. If nil,
// time.Now is used.
TimeNow func() time.Time
// TODO: refresh directionality: outbound-only, both
mu sync.Mutex
seen map[fwKey]time.Time // session -> deadline
}
func (f *Firewall) timeNow() time.Time {
if f.TimeNow != nil {
return f.TimeNow()
}
return time.Now()
}
// Reset drops all firewall state, forgetting all flows.
func (f *Firewall) Reset() {
f.mu.Lock()
defer f.mu.Unlock()
f.seen = nil
}
func (f *Firewall) HandleOut(p *Packet, oif *Interface) *Packet {
f.mu.Lock()
defer f.mu.Unlock()
k := f.Type.key(p.Src, p.Dst)
mak.Set(&f.seen, k, f.timeNow().Add(f.sessionTimeoutLocked()))
p.Trace("firewall out ok")
return p
}
func (f *Firewall) HandleIn(p *Packet, iif *Interface) *Packet {
f.mu.Lock()
defer f.mu.Unlock()
// reverse src and dst because the session table is from the POV
// of outbound packets.
k := f.Type.key(p.Dst, p.Src)
now := f.timeNow()
if now.After(f.seen[k]) {
p.Trace("firewall drop")
return nil
}
p.Trace("firewall in ok")
return p
}
func (f *Firewall) HandleForward(p *Packet, iif *Interface, oif *Interface) *Packet {
if iif == f.TrustedInterface {
// Treat just like a locally originated packet
return f.HandleOut(p, oif)
}
if oif != f.TrustedInterface {
// Not a possible return packet from our trusted interface, drop.
p.Trace("firewall drop, unexpected oif")
return nil
}
// Otherwise, a session must exist, same as HandleIn.
return f.HandleIn(p, iif)
}
func (f *Firewall) sessionTimeoutLocked() time.Duration {
if f.SessionTimeout == 0 {
return DefaultSessionTimeout
}
return f.SessionTimeout
}