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// Copyright (c) Tailscale Inc & contributors
// SPDX-License-Identifier: BSD-3-Clause
//go:build !ts_omit_netlog && !ts_omit_logtail
package netlog
import (
"encoding/binary"
"math/rand/v2"
"net/netip"
"sync"
"testing"
"testing/synctest"
"time"
jsonv2 "github.com/go-json-experiment/json"
"github.com/google/go-cmp/cmp"
"github.com/google/go-cmp/cmp/cmpopts"
"tailscale.com/tailcfg"
"tailscale.com/types/bools"
"tailscale.com/types/ipproto"
"tailscale.com/types/netlogtype"
"tailscale.com/types/netmap"
"tailscale.com/wgengine/router"
)
func TestEmbedNodeInfo(t *testing.T) {
// Initialize the logger with a particular view of the netmap.
var logger Logger
logger.ReconfigNetworkMap(&netmap.NetworkMap{
SelfNode: (&tailcfg.Node{
StableID: "n123456CNTL",
ID: 123456,
Name: "test.tail123456.ts.net",
Addresses: []netip.Prefix{prefix("100.1.2.3")},
Tags: []string{"tag:foo", "tag:bar"},
}).View(),
Peers: []tailcfg.NodeView{
(&tailcfg.Node{
StableID: "n123457CNTL",
ID: 123457,
Name: "peer1.tail123456.ts.net",
Addresses: []netip.Prefix{prefix("100.1.2.4")},
Tags: []string{"tag:peer"},
}).View(),
(&tailcfg.Node{
StableID: "n123458CNTL",
ID: 123458,
Name: "peer2.tail123456.ts.net",
Addresses: []netip.Prefix{prefix("100.1.2.5")},
User: 54321,
}).View(),
},
UserProfiles: map[tailcfg.UserID]tailcfg.UserProfileView{
54321: (&tailcfg.UserProfile{ID: 54321, LoginName: "peer@example.com"}).View(),
},
})
logger.ReconfigRoutes(&router.Config{
SubnetRoutes: []netip.Prefix{
prefix("172.16.1.1/16"),
prefix("192.168.1.1/24"),
},
})
// Update the counters for a few connections.
var group sync.WaitGroup
defer group.Wait()
conns := []struct {
virt bool
proto ipproto.Proto
src, dst netip.AddrPort
txP, txB, rxP, rxB int
}{
{true, 0x6, addrPort("100.1.2.3:80"), addrPort("100.1.2.4:1812"), 88, 278, 34, 887},
{true, 0x6, addrPort("100.1.2.3:443"), addrPort("100.1.2.5:1742"), 96, 635, 23, 790},
{true, 0x6, addrPort("100.1.2.3:443"), addrPort("100.1.2.6:1175"), 48, 94, 86, 618}, // unknown peer (in Tailscale IP space, but not a known peer)
{true, 0x6, addrPort("100.1.2.3:80"), addrPort("192.168.1.241:713"), 43, 154, 66, 883},
{true, 0x6, addrPort("100.1.2.3:80"), addrPort("192.168.2.241:713"), 43, 154, 66, 883}, // not in the subnet, must be exit traffic
{true, 0x6, addrPort("100.1.2.3:80"), addrPort("172.16.5.18:713"), 7, 243, 40, 59},
{true, 0x6, addrPort("100.1.2.3:80"), addrPort("172.20.5.18:713"), 61, 753, 42, 492}, // not in the subnet, must be exit traffic
{true, 0x6, addrPort("192.168.1.241:713"), addrPort("100.1.2.3:80"), 43, 154, 66, 883},
{true, 0x6, addrPort("192.168.2.241:713"), addrPort("100.1.2.3:80"), 43, 154, 66, 883}, // not in the subnet, must be exit traffic
{true, 0x6, addrPort("172.16.5.18:713"), addrPort("100.1.2.3:80"), 7, 243, 40, 59},
{true, 0x6, addrPort("172.20.5.18:713"), addrPort("100.1.2.3:80"), 61, 753, 42, 492}, // not in the subnet, must be exit traffic
{true, 0x6, addrPort("14.255.192.128:39230"), addrPort("243.42.106.193:48206"), 81, 791, 79, 316}, // unknown connection
{false, 0x6, addrPort("100.1.2.4:0"), addrPort("35.92.180.165:9743"), 63, 136, 61, 409}, // physical traffic with peer1
{false, 0x6, addrPort("100.1.2.5:0"), addrPort("131.19.35.17:9743"), 88, 452, 2, 716}, // physical traffic with peer2
}
for range 10 {
for _, conn := range conns {
update := bools.IfElse(conn.virt, logger.updateVirtConn, logger.updatePhysConn)
group.Go(func() { update(conn.proto, conn.src, conn.dst, conn.txP, conn.txB, false) })
group.Go(func() { update(conn.proto, conn.src, conn.dst, conn.rxP, conn.rxB, true) })
}
}
group.Wait()
// Verify that the counters match.
got := logger.record.toMessage(false, false)
got.Start = time.Time{} // avoid flakiness
want := netlogtype.Message{
NodeID: "n123456CNTL",
SrcNode: netlogtype.Node{
NodeID: "n123456CNTL",
Name: "test.tail123456.ts.net",
Addresses: []netip.Addr{addr("100.1.2.3")},
Tags: []string{"tag:bar", "tag:foo"},
},
DstNodes: []netlogtype.Node{{
NodeID: "n123457CNTL",
Name: "peer1.tail123456.ts.net",
Addresses: []netip.Addr{addr("100.1.2.4")},
Tags: []string{"tag:peer"},
}, {
NodeID: "n123458CNTL",
Name: "peer2.tail123456.ts.net",
Addresses: []netip.Addr{addr("100.1.2.5")},
User: "peer@example.com",
}},
VirtualTraffic: []netlogtype.ConnectionCounts{
{Connection: conn(0x6, "100.1.2.3:80", "100.1.2.4:1812"), Counts: counts(880, 2780, 340, 8870)},
{Connection: conn(0x6, "100.1.2.3:443", "100.1.2.5:1742"), Counts: counts(960, 6350, 230, 7900)},
},
SubnetTraffic: []netlogtype.ConnectionCounts{
{Connection: conn(0x6, "100.1.2.3:80", "172.16.5.18:713"), Counts: counts(70, 2430, 400, 590)},
{Connection: conn(0x6, "100.1.2.3:80", "192.168.1.241:713"), Counts: counts(430, 1540, 660, 8830)},
{Connection: conn(0x6, "172.16.5.18:713", "100.1.2.3:80"), Counts: counts(70, 2430, 400, 590)},
{Connection: conn(0x6, "192.168.1.241:713", "100.1.2.3:80"), Counts: counts(430, 1540, 660, 8830)},
},
ExitTraffic: []netlogtype.ConnectionCounts{
{Connection: conn(0x6, "14.255.192.128:39230", "243.42.106.193:48206"), Counts: counts(810, 7910, 790, 3160)},
{Connection: conn(0x6, "100.1.2.3:80", "172.20.5.18:713"), Counts: counts(610, 7530, 420, 4920)},
{Connection: conn(0x6, "100.1.2.3:80", "192.168.2.241:713"), Counts: counts(430, 1540, 660, 8830)},
{Connection: conn(0x6, "100.1.2.3:443", "100.1.2.6:1175"), Counts: counts(480, 940, 860, 6180)},
{Connection: conn(0x6, "172.20.5.18:713", "100.1.2.3:80"), Counts: counts(610, 7530, 420, 4920)},
{Connection: conn(0x6, "192.168.2.241:713", "100.1.2.3:80"), Counts: counts(430, 1540, 660, 8830)},
},
PhysicalTraffic: []netlogtype.ConnectionCounts{
{Connection: conn(0x6, "100.1.2.4:0", "35.92.180.165:9743"), Counts: counts(630, 1360, 610, 4090)},
{Connection: conn(0x6, "100.1.2.5:0", "131.19.35.17:9743"), Counts: counts(880, 4520, 20, 7160)},
},
}
if d := cmp.Diff(got, want, cmpopts.EquateComparable(netip.Addr{}, netip.AddrPort{})); d != "" {
t.Errorf("Message (-got +want):\n%s", d)
}
}
func TestUpdateRace(t *testing.T) {
var logger Logger
logger.recordsChan = make(chan record, 1)
go func(recordsChan chan record) {
for range recordsChan {
}
}(logger.recordsChan)
var group sync.WaitGroup
defer group.Wait()
for i := range 1000 {
group.Go(func() {
src, dst := randAddrPort(), randAddrPort()
for j := range 1000 {
if i%2 == 0 {
logger.updateVirtConn(0x1, src, dst, rand.IntN(10), rand.IntN(1000), j%2 == 0)
} else {
logger.updatePhysConn(0x1, src, dst, rand.IntN(10), rand.IntN(1000), j%2 == 0)
}
}
})
group.Go(func() {
for range 1000 {
logger.ReconfigNetworkMap(new(netmap.NetworkMap))
}
})
group.Go(func() {
for range 1000 {
logger.ReconfigRoutes(new(router.Config))
}
})
}
group.Wait()
logger.mu.Lock()
close(logger.recordsChan)
logger.recordsChan = nil
logger.mu.Unlock()
}
func randAddrPort() netip.AddrPort {
var b [4]uint8
binary.LittleEndian.PutUint32(b[:], rand.Uint32())
return netip.AddrPortFrom(netip.AddrFrom4(b), uint16(rand.Uint32()))
}
func TestAutoFlushMaxConns(t *testing.T) {
var logger Logger
logger.recordsChan = make(chan record, 1)
for i := 0; len(logger.recordsChan) == 0; i++ {
logger.updateVirtConn(0, netip.AddrPortFrom(netip.Addr{}, uint16(i)), netip.AddrPort{}, 1, 1, false)
}
b, _ := jsonv2.Marshal(logger.recordsChan)
if len(b) > maxLogSize {
t.Errorf("len(Message) = %v, want <= %d", len(b), maxLogSize)
}
}
func TestAutoFlushTimeout(t *testing.T) {
var logger Logger
logger.recordsChan = make(chan record, 1)
synctest.Test(t, func(t *testing.T) {
logger.updateVirtConn(0, netip.AddrPort{}, netip.AddrPort{}, 1, 1, false)
time.Sleep(pollPeriod)
})
rec := <-logger.recordsChan
if d := rec.end.Sub(rec.start); d != pollPeriod {
t.Errorf("window = %v, want %v", d, pollPeriod)
}
if len(rec.virtConns) != 1 {
t.Errorf("len(virtConns) = %d, want 1", len(rec.virtConns))
}
}
func BenchmarkUpdateSameConn(b *testing.B) {
var logger Logger
b.ReportAllocs()
for range b.N {
logger.updateVirtConn(0, netip.AddrPort{}, netip.AddrPort{}, 1, 1, false)
}
}
func BenchmarkUpdateNewConns(b *testing.B) {
var logger Logger
b.ReportAllocs()
for i := range b.N {
logger.updateVirtConn(0, netip.AddrPortFrom(netip.Addr{}, uint16(i)), netip.AddrPort{}, 1, 1, false)
}
}
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