mirror of
https://github.com/KusakabeShi/EtherGuard-VPN.git
synced 2024-12-01 19:53:09 +01:00
587a2b2a20
Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com>
424 lines
9.9 KiB
Go
424 lines
9.9 KiB
Go
/* SPDX-License-Identifier: MIT
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*
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* Copyright (C) 2017-2021 WireGuard LLC. All Rights Reserved.
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*/
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package device
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import (
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"bytes"
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"encoding/hex"
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"fmt"
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"io/ioutil"
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"math/rand"
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"net"
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"runtime"
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"runtime/pprof"
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"sync"
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"sync/atomic"
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"testing"
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"time"
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"golang.zx2c4.com/wireguard/tun/tuntest"
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)
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// uapiCfg returns a string that contains cfg formatted use with IpcSet.
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// cfg is a series of alternating key/value strings.
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// uapiCfg exists because editors and humans like to insert
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// whitespace into configs, which can cause failures, some of which are silent.
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// For example, a leading blank newline causes the remainder
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// of the config to be silently ignored.
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func uapiCfg(cfg ...string) string {
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if len(cfg)%2 != 0 {
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panic("odd number of args to uapiReader")
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}
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buf := new(bytes.Buffer)
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for i, s := range cfg {
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buf.WriteString(s)
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sep := byte('\n')
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if i%2 == 0 {
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sep = '='
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}
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buf.WriteByte(sep)
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}
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return buf.String()
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}
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// genConfigs generates a pair of configs that connect to each other.
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// The configs use distinct, probably-usable ports.
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func genConfigs(tb testing.TB) (cfgs [2]string, endpointCfgs [2]string) {
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var key1, key2 NoisePrivateKey
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_, err := rand.Read(key1[:])
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if err != nil {
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tb.Errorf("unable to generate private key random bytes: %v", err)
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}
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_, err = rand.Read(key2[:])
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if err != nil {
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tb.Errorf("unable to generate private key random bytes: %v", err)
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}
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pub1, pub2 := key1.publicKey(), key2.publicKey()
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cfgs[0] = uapiCfg(
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"private_key", hex.EncodeToString(key1[:]),
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"listen_port", "0",
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"replace_peers", "true",
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"public_key", hex.EncodeToString(pub2[:]),
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"protocol_version", "1",
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"replace_allowed_ips", "true",
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"allowed_ip", "1.0.0.2/32",
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)
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endpointCfgs[0] = uapiCfg(
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"public_key", hex.EncodeToString(pub2[:]),
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"endpoint", "127.0.0.1:%d",
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)
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cfgs[1] = uapiCfg(
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"private_key", hex.EncodeToString(key2[:]),
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"listen_port", "0",
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"replace_peers", "true",
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"public_key", hex.EncodeToString(pub1[:]),
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"protocol_version", "1",
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"replace_allowed_ips", "true",
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"allowed_ip", "1.0.0.1/32",
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)
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endpointCfgs[1] = uapiCfg(
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"public_key", hex.EncodeToString(pub1[:]),
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"endpoint", "127.0.0.1:%d",
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)
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return
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}
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// A testPair is a pair of testPeers.
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type testPair [2]testPeer
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// A testPeer is a peer used for testing.
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type testPeer struct {
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tun *tuntest.ChannelTUN
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dev *Device
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ip net.IP
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}
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type SendDirection bool
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const (
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Ping SendDirection = true
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Pong SendDirection = false
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)
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func (d SendDirection) String() string {
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if d == Ping {
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return "ping"
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}
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return "pong"
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}
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func (pair *testPair) Send(tb testing.TB, ping SendDirection, done chan struct{}) {
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tb.Helper()
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p0, p1 := pair[0], pair[1]
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if !ping {
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// pong is the new ping
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p0, p1 = p1, p0
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}
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msg := tuntest.Ping(p0.ip, p1.ip)
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p1.tun.Outbound <- msg
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timer := time.NewTimer(5 * time.Second)
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defer timer.Stop()
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var err error
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select {
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case msgRecv := <-p0.tun.Inbound:
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if !bytes.Equal(msg, msgRecv) {
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err = fmt.Errorf("%s did not transit correctly", ping)
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}
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case <-timer.C:
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err = fmt.Errorf("%s did not transit", ping)
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case <-done:
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}
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if err != nil {
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// The error may have occurred because the test is done.
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select {
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case <-done:
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return
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default:
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}
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// Real error.
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tb.Error(err)
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}
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}
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// genTestPair creates a testPair.
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func genTestPair(tb testing.TB) (pair testPair) {
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cfg, endpointCfg := genConfigs(tb)
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// Bring up a ChannelTun for each config.
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for i := range pair {
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p := &pair[i]
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p.tun = tuntest.NewChannelTUN()
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p.ip = net.IPv4(1, 0, 0, byte(i+1))
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level := LogLevelVerbose
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if _, ok := tb.(*testing.B); ok && !testing.Verbose() {
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level = LogLevelError
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}
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p.dev = NewDevice(p.tun.TUN(), NewLogger(level, fmt.Sprintf("dev%d: ", i)))
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if err := p.dev.IpcSet(cfg[i]); err != nil {
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tb.Errorf("failed to configure device %d: %v", i, err)
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p.dev.Close()
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continue
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}
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if err := p.dev.Up(); err != nil {
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tb.Errorf("failed to bring up device %d: %v", i, err)
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p.dev.Close()
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continue
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}
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endpointCfg[i^1] = fmt.Sprintf(endpointCfg[i^1], p.dev.net.port)
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}
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for i := range pair {
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p := &pair[i]
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if err := p.dev.IpcSet(endpointCfg[i]); err != nil {
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tb.Errorf("failed to configure device endpoint %d: %v", i, err)
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p.dev.Close()
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continue
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}
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// The device is ready. Close it when the test completes.
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tb.Cleanup(p.dev.Close)
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}
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return
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}
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func TestTwoDevicePing(t *testing.T) {
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goroutineLeakCheck(t)
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pair := genTestPair(t)
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t.Run("ping 1.0.0.1", func(t *testing.T) {
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pair.Send(t, Ping, nil)
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})
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t.Run("ping 1.0.0.2", func(t *testing.T) {
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pair.Send(t, Pong, nil)
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})
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}
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func TestUpDown(t *testing.T) {
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goroutineLeakCheck(t)
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const itrials = 20
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const otrials = 1
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for n := 0; n < otrials; n++ {
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pair := genTestPair(t)
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for i := range pair {
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for k := range pair[i].dev.peers.keyMap {
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pair[i].dev.IpcSet(fmt.Sprintf("public_key=%s\npersistent_keepalive_interval=1\n", hex.EncodeToString(k[:])))
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}
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}
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var wg sync.WaitGroup
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wg.Add(len(pair))
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for i := range pair {
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go func(d *Device) {
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defer wg.Done()
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for i := 0; i < itrials; i++ {
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if err := d.Up(); err != nil {
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t.Errorf("failed up bring up device: %v", err)
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}
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time.Sleep(time.Duration(rand.Intn(int(time.Nanosecond * (0x10000 - 1)))))
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if err := d.Down(); err != nil {
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t.Errorf("failed to bring down device: %v", err)
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}
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time.Sleep(time.Duration(rand.Intn(int(time.Nanosecond * (0x10000 - 1)))))
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}
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}(pair[i].dev)
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}
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wg.Wait()
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for i := range pair {
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pair[i].dev.Up()
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pair[i].dev.Close()
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}
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}
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}
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// TestConcurrencySafety does other things concurrently with tunnel use.
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// It is intended to be used with the race detector to catch data races.
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func TestConcurrencySafety(t *testing.T) {
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pair := genTestPair(t)
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done := make(chan struct{})
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const warmupIters = 10
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var warmup sync.WaitGroup
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warmup.Add(warmupIters)
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go func() {
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// Send data continuously back and forth until we're done.
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// Note that we may continue to attempt to send data
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// even after done is closed.
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i := warmupIters
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for ping := Ping; ; ping = !ping {
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pair.Send(t, ping, done)
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select {
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case <-done:
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return
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default:
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}
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if i > 0 {
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warmup.Done()
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i--
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}
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}
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}()
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warmup.Wait()
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applyCfg := func(cfg string) {
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err := pair[0].dev.IpcSet(cfg)
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if err != nil {
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t.Fatal(err)
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}
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}
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// Change persistent_keepalive_interval concurrently with tunnel use.
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t.Run("persistentKeepaliveInterval", func(t *testing.T) {
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var pub NoisePublicKey
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for key := range pair[0].dev.peers.keyMap {
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pub = key
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break
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}
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cfg := uapiCfg(
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"public_key", hex.EncodeToString(pub[:]),
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"persistent_keepalive_interval", "1",
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)
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for i := 0; i < 1000; i++ {
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applyCfg(cfg)
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}
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})
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// Change private keys concurrently with tunnel use.
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t.Run("privateKey", func(t *testing.T) {
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bad := uapiCfg("private_key", "7777777777777777777777777777777777777777777777777777777777777777")
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good := uapiCfg("private_key", hex.EncodeToString(pair[0].dev.staticIdentity.privateKey[:]))
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// Set iters to a large number like 1000 to flush out data races quickly.
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// Don't leave it large. That can cause logical races
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// in which the handshake is interleaved with key changes
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// such that the private key appears to be unchanging but
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// other state gets reset, which can cause handshake failures like
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// "Received packet with invalid mac1".
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const iters = 1
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for i := 0; i < iters; i++ {
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applyCfg(bad)
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applyCfg(good)
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}
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})
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close(done)
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}
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func assertNil(t *testing.T, err error) {
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if err != nil {
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t.Fatal(err)
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}
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}
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func assertEqual(t *testing.T, a, b []byte) {
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if !bytes.Equal(a, b) {
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t.Fatal(a, "!=", b)
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}
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}
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func randDevice(t *testing.T) *Device {
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sk, err := newPrivateKey()
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if err != nil {
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t.Fatal(err)
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}
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tun := newDummyTUN("dummy")
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logger := NewLogger(LogLevelError, "")
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device := NewDevice(tun, logger)
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device.SetPrivateKey(sk)
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return device
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}
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func BenchmarkLatency(b *testing.B) {
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pair := genTestPair(b)
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// Establish a connection.
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pair.Send(b, Ping, nil)
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pair.Send(b, Pong, nil)
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b.ResetTimer()
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for i := 0; i < b.N; i++ {
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pair.Send(b, Ping, nil)
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pair.Send(b, Pong, nil)
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}
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}
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func BenchmarkThroughput(b *testing.B) {
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pair := genTestPair(b)
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// Establish a connection.
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pair.Send(b, Ping, nil)
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pair.Send(b, Pong, nil)
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// Measure how long it takes to receive b.N packets,
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// starting when we receive the first packet.
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var recv uint64
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var elapsed time.Duration
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var wg sync.WaitGroup
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wg.Add(1)
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go func() {
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defer wg.Done()
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var start time.Time
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for {
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<-pair[0].tun.Inbound
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new := atomic.AddUint64(&recv, 1)
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if new == 1 {
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start = time.Now()
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}
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// Careful! Don't change this to else if; b.N can be equal to 1.
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if new == uint64(b.N) {
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elapsed = time.Since(start)
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return
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}
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}
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}()
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// Send packets as fast as we can until we've received enough.
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ping := tuntest.Ping(pair[0].ip, pair[1].ip)
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pingc := pair[1].tun.Outbound
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var sent uint64
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for atomic.LoadUint64(&recv) != uint64(b.N) {
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sent++
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pingc <- ping
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}
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wg.Wait()
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b.ReportMetric(float64(elapsed)/float64(b.N), "ns/op")
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b.ReportMetric(1-float64(b.N)/float64(sent), "packet-loss")
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}
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func BenchmarkUAPIGet(b *testing.B) {
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pair := genTestPair(b)
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pair.Send(b, Ping, nil)
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pair.Send(b, Pong, nil)
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b.ReportAllocs()
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b.ResetTimer()
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for i := 0; i < b.N; i++ {
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pair[0].dev.IpcGetOperation(ioutil.Discard)
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}
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}
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func goroutineLeakCheck(t *testing.T) {
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goroutines := func() (int, []byte) {
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p := pprof.Lookup("goroutine")
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b := new(bytes.Buffer)
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p.WriteTo(b, 1)
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return p.Count(), b.Bytes()
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}
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startGoroutines, startStacks := goroutines()
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t.Cleanup(func() {
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if t.Failed() {
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return
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}
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// Give goroutines time to exit, if they need it.
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for i := 0; i < 10000; i++ {
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if runtime.NumGoroutine() <= startGoroutines {
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return
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}
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time.Sleep(1 * time.Millisecond)
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}
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endGoroutines, endStacks := goroutines()
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t.Logf("starting stacks:\n%s\n", startStacks)
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t.Logf("ending stacks:\n%s\n", endStacks)
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t.Fatalf("expected %d goroutines, got %d, leak?", startGoroutines, endGoroutines)
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})
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}
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