2020-05-13 14:16:17 +01:00
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// 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 tstun provides a TUN struct implementing the tun.Device interface
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// with additional features as required by wgengine.
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package tstun
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import (
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"errors"
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"io"
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"os"
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"sync/atomic"
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"github.com/tailscale/wireguard-go/device"
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"github.com/tailscale/wireguard-go/tun"
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"tailscale.com/types/logger"
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"tailscale.com/wgengine/filter"
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"tailscale.com/wgengine/packet"
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)
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const (
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readMaxSize = device.MaxMessageSize
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readOffset = device.MessageTransportHeaderSize
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)
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// MaxPacketSize is the maximum size (in bytes)
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// of a packet that can be injected into a tstun.TUN.
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const MaxPacketSize = device.MaxContentSize
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var (
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2020-05-26 23:14:19 +01:00
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// ErrClosed is returned when attempting an operation on a closed TUN.
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ErrClosed = errors.New("device closed")
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// ErrFiltered is returned when the acted-on packet is rejected by a filter.
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ErrFiltered = errors.New("packet dropped by filter")
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2020-05-13 14:16:17 +01:00
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)
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2020-05-26 23:14:19 +01:00
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var errPacketTooBig = errors.New("packet too big")
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2020-05-13 14:16:17 +01:00
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// TUN wraps a tun.Device from wireguard-go,
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// augmenting it with filtering and packet injection.
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// All the added work happens in Read and Write:
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// the other methods delegate to the underlying tdev.
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type TUN struct {
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logf logger.Logf
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// tdev is the underlying TUN device.
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tdev tun.Device
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// buffer stores the oldest unconsumed packet from tdev.
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// It is made a static buffer in order to avoid graticious allocation.
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buffer [readMaxSize]byte
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// bufferConsumed synchronizes access to buffer (shared by Read and poll).
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bufferConsumed chan struct{}
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// closed signals poll (by closing) when the device is closed.
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closed chan struct{}
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// errors is the error queue populated by poll.
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errors chan error
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// outbound is the queue by which packets leave the TUN device.
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//
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// The directions are relative to the network, not the device:
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// inbound packets arrive via UDP and are written into the TUN device;
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// outbound packets are read from the TUN device and sent out via UDP.
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// This queue is needed because although inbound writes are synchronous,
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// the other direction must wait on a Wireguard goroutine to poll it.
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//
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// Empty reads are skipped by Wireguard, so it is always legal
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// to discard an empty packet instead of sending it through t.outbound.
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2020-05-13 14:16:17 +01:00
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outbound chan []byte
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// fitler stores the currently active package filter
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filter atomic.Value // of *filter.Filter
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// filterFlags control the verbosity of logging packet drops/accepts.
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filterFlags filter.RunFlags
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}
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func WrapTUN(logf logger.Logf, tdev tun.Device) *TUN {
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tun := &TUN{
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logf: logf,
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tdev: tdev,
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// bufferConsumed is conceptually a condition variable:
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// a goroutine should not block when setting it, even with no listeners.
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bufferConsumed: make(chan struct{}, 1),
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closed: make(chan struct{}),
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errors: make(chan error),
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outbound: make(chan []byte),
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filterFlags: filter.LogAccepts | filter.LogDrops,
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}
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go tun.poll()
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// The buffer starts out consumed.
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tun.bufferConsumed <- struct{}{}
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return tun
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}
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func (t *TUN) Close() error {
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select {
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case <-t.closed:
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// continue
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default:
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// Other channels need not be closed: poll will exit gracefully after this.
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close(t.closed)
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}
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return t.tdev.Close()
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}
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func (t *TUN) Events() chan tun.Event {
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return t.tdev.Events()
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}
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func (t *TUN) File() *os.File {
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return t.tdev.File()
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}
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func (t *TUN) Flush() error {
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return t.tdev.Flush()
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}
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func (t *TUN) MTU() (int, error) {
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return t.tdev.MTU()
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}
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func (t *TUN) Name() (string, error) {
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return t.tdev.Name()
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}
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// poll polls t.tdev.Read, placing the oldest unconsumed packet into t.buffer.
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// This is needed because t.tdev.Read in general may block (it does on Windows),
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// so packets may be stuck in t.outbound if t.Read called t.tdev.Read directly.
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func (t *TUN) poll() {
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for {
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select {
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case <-t.closed:
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return
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case <-t.bufferConsumed:
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// continue
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}
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// Read may use memory in t.buffer before readOffset for mandatory headers.
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// This is the rationale behind the tun.TUN.{Read,Write} interfaces
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// and the reason t.buffer has size MaxMessageSize and not MaxContentSize.
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n, err := t.tdev.Read(t.buffer[:], readOffset)
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if err != nil {
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select {
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case <-t.closed:
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return
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case t.errors <- err:
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// In principle, read errors are not fatal (but wireguard-go disagrees).
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t.bufferConsumed <- struct{}{}
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}
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continue
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}
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// Wireguard will skip an empty read,
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// so we might as well do it here to avoid the send through t.outbound.
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if n == 0 {
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t.bufferConsumed <- struct{}{}
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continue
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}
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select {
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case <-t.closed:
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return
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case t.outbound <- t.buffer[readOffset : readOffset+n]:
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// continue
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}
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}
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}
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func (t *TUN) filterOut(buf []byte) filter.Response {
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filt, _ := t.filter.Load().(*filter.Filter)
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if filt == nil {
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t.logf("Warning: you forgot to use SetFilter()! Packet dropped.")
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return filter.Drop
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}
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2020-06-04 23:42:44 +01:00
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var p packet.ParsedPacket
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if filt.RunOut(buf, &p, t.filterFlags) == filter.Accept {
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return filter.Accept
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}
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2020-06-04 23:42:44 +01:00
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2020-05-13 14:16:17 +01:00
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return filter.Drop
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}
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func (t *TUN) Read(buf []byte, offset int) (int, error) {
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var n int
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select {
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case <-t.closed:
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return 0, io.EOF
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case err := <-t.errors:
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return 0, err
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case packet := <-t.outbound:
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n = copy(buf[offset:], packet)
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// t.buffer has a fixed location in memory,
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// so this is the easiest way to tell when it has been consumed.
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// &packet[0] can be used because empty packets do not reach t.outbound.
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if &packet[0] == &t.buffer[readOffset] {
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t.bufferConsumed <- struct{}{}
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}
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}
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response := t.filterOut(buf[offset : offset+n])
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if response != filter.Accept {
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// Wireguard considers read errors fatal; pretend nothing was read
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return 0, nil
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}
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return n, nil
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}
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func (t *TUN) filterIn(buf []byte) filter.Response {
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filt, _ := t.filter.Load().(*filter.Filter)
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if filt == nil {
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t.logf("Warning: you forgot to use SetFilter()! Packet dropped.")
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return filter.Drop
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}
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2020-06-04 23:42:44 +01:00
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var p packet.ParsedPacket
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if filt.RunIn(buf, &p, t.filterFlags) == filter.Accept {
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// Only in fake mode, answer any incoming pings.
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if p.IsEchoRequest() {
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ft, ok := t.tdev.(*fakeTUN)
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if ok {
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2020-06-04 23:42:44 +01:00
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header := p.ICMPHeader()
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header.ToResponse()
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packet := packet.Generate(&header, p.Payload())
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ft.Write(packet, 0)
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// We already handled it, stop.
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return filter.Drop
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}
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}
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return filter.Accept
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}
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2020-05-13 14:16:17 +01:00
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return filter.Drop
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}
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func (t *TUN) Write(buf []byte, offset int) (int, error) {
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response := t.filterIn(buf[offset:])
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if response != filter.Accept {
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return 0, ErrFiltered
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}
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return t.tdev.Write(buf, offset)
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}
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func (t *TUN) GetFilter() *filter.Filter {
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filt, _ := t.filter.Load().(*filter.Filter)
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return filt
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}
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func (t *TUN) SetFilter(filt *filter.Filter) {
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t.filter.Store(filt)
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}
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// InjectInbound makes the TUN device behave as if a packet
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// with the given contents was received from the network.
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// It blocks and does not take ownership of the packet.
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// Injecting an empty packet is a no-op.
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func (t *TUN) InjectInbound(packet []byte) error {
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if len(packet) > MaxPacketSize {
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return errPacketTooBig
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}
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if len(packet) == 0 {
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return nil
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}
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_, err := t.Write(packet, 0)
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return err
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}
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// InjectOutbound makes the TUN device behave as if a packet
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// with the given contents was sent to the network.
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// It does not block, but takes ownership of the packet.
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// Injecting an empty packet is a no-op.
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func (t *TUN) InjectOutbound(packet []byte) error {
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if len(packet) > MaxPacketSize {
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return errPacketTooBig
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}
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if len(packet) == 0 {
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return nil
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}
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select {
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case <-t.closed:
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return ErrClosed
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case t.outbound <- packet:
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return nil
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}
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}
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2020-05-15 08:06:30 +01:00
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// Unwrap returns the underlying TUN device.
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func (t *TUN) Unwrap() tun.Device {
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return t.tdev
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}
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