mirror of https://github.com/slackhq/nebula.git
977 lines
39 KiB
Go
977 lines
39 KiB
Go
//go:build e2e_testing
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// +build e2e_testing
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package e2e
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import (
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"fmt"
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"net/netip"
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"testing"
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"time"
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"github.com/sirupsen/logrus"
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"github.com/slackhq/nebula"
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"github.com/slackhq/nebula/e2e/router"
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"github.com/slackhq/nebula/header"
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"github.com/slackhq/nebula/udp"
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"github.com/stretchr/testify/assert"
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"gopkg.in/yaml.v2"
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)
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func BenchmarkHotPath(b *testing.B) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, _, _, _ := newSimpleServer(ca, caKey, "me", "10.128.0.1/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
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// Put their info in our lighthouse
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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// Start the servers
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myControl.Start()
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theirControl.Start()
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r := router.NewR(b, myControl, theirControl)
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r.CancelFlowLogs()
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for n := 0; n < b.N; n++ {
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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_ = r.RouteForAllUntilTxTun(theirControl)
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}
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myControl.Stop()
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theirControl.Stop()
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}
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func TestGoodHandshake(t *testing.T) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me", "10.128.0.1/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
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// Put their info in our lighthouse
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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// Start the servers
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myControl.Start()
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theirControl.Start()
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t.Log("Send a udp packet through to begin standing up the tunnel, this should come out the other side")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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t.Log("Have them consume my stage 0 packet. They have a tunnel now")
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theirControl.InjectUDPPacket(myControl.GetFromUDP(true))
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t.Log("Get their stage 1 packet so that we can play with it")
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stage1Packet := theirControl.GetFromUDP(true)
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t.Log("I consume a garbage packet with a proper nebula header for our tunnel")
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// this should log a statement and get ignored, allowing the real handshake packet to complete the tunnel
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badPacket := stage1Packet.Copy()
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badPacket.Data = badPacket.Data[:len(badPacket.Data)-header.Len]
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myControl.InjectUDPPacket(badPacket)
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t.Log("Have me consume their real stage 1 packet. I have a tunnel now")
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myControl.InjectUDPPacket(stage1Packet)
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t.Log("Wait until we see my cached packet come through")
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myControl.WaitForType(1, 0, theirControl)
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t.Log("Make sure our host infos are correct")
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assertHostInfoPair(t, myUdpAddr, theirUdpAddr, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl)
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t.Log("Get that cached packet and make sure it looks right")
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myCachedPacket := theirControl.GetFromTun(true)
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assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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t.Log("Do a bidirectional tunnel test")
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r := router.NewR(t, myControl, theirControl)
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defer r.RenderFlow()
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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r.RenderHostmaps("Final hostmaps", myControl, theirControl)
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myControl.Stop()
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theirControl.Stop()
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//TODO: assert hostmaps
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}
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func TestWrongResponderHandshake(t *testing.T) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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// The IPs here are chosen on purpose:
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// The current remote handling will sort by preference, public, and then lexically.
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// So we need them to have a higher address than evil (we could apply a preference though)
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me", "10.128.0.100/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.99/24", nil)
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evilControl, evilVpnIp, evilUdpAddr, _ := newSimpleServer(ca, caKey, "evil", "10.128.0.2/24", nil)
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// Add their real udp addr, which should be tried after evil.
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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// Put the evil udp addr in for their vpn Ip, this is a case of being lied to by the lighthouse.
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), evilUdpAddr)
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// Build a router so we don't have to reason who gets which packet
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r := router.NewR(t, myControl, theirControl, evilControl)
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defer r.RenderFlow()
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// Start the servers
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myControl.Start()
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theirControl.Start()
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evilControl.Start()
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t.Log("Start the handshake process, we will route until we see our cached packet get sent to them")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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r.RouteForAllExitFunc(func(p *udp.Packet, c *nebula.Control) router.ExitType {
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h := &header.H{}
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err := h.Parse(p.Data)
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if err != nil {
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panic(err)
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}
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if p.To == theirUdpAddr && h.Type == 1 {
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return router.RouteAndExit
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}
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return router.KeepRouting
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})
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//TODO: Assert pending hostmap - I should have a correct hostinfo for them now
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t.Log("My cached packet should be received by them")
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myCachedPacket := theirControl.GetFromTun(true)
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assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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t.Log("Test the tunnel with them")
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assertHostInfoPair(t, myUdpAddr, theirUdpAddr, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl)
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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t.Log("Flush all packets from all controllers")
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r.FlushAll()
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t.Log("Ensure ensure I don't have any hostinfo artifacts from evil")
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assert.Nil(t, myControl.GetHostInfoByVpnIp(evilVpnIp.Addr(), true), "My pending hostmap should not contain evil")
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assert.Nil(t, myControl.GetHostInfoByVpnIp(evilVpnIp.Addr(), false), "My main hostmap should not contain evil")
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//NOTE: if evil lost the handshake race it may still have a tunnel since me would reject the handshake since the tunnel is complete
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//TODO: assert hostmaps for everyone
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r.RenderHostmaps("Final hostmaps", myControl, theirControl, evilControl)
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t.Log("Success!")
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myControl.Stop()
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theirControl.Stop()
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}
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func TestStage1Race(t *testing.T) {
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// This tests ensures that two hosts handshaking with each other at the same time will allow traffic to flow
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// But will eventually collapse down to a single tunnel
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
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// Put their info in our lighthouse and vice versa
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
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// Build a router so we don't have to reason who gets which packet
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r := router.NewR(t, myControl, theirControl)
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defer r.RenderFlow()
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// Start the servers
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myControl.Start()
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theirControl.Start()
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t.Log("Trigger a handshake to start on both me and them")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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theirControl.InjectTunUDPPacket(myVpnIpNet.Addr(), 80, 80, []byte("Hi from them"))
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t.Log("Get both stage 1 handshake packets")
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myHsForThem := myControl.GetFromUDP(true)
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theirHsForMe := theirControl.GetFromUDP(true)
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r.Log("Now inject both stage 1 handshake packets")
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r.InjectUDPPacket(theirControl, myControl, theirHsForMe)
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r.InjectUDPPacket(myControl, theirControl, myHsForThem)
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r.Log("Route until they receive a message packet")
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myCachedPacket := r.RouteForAllUntilTxTun(theirControl)
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assertUdpPacket(t, []byte("Hi from me"), myCachedPacket, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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r.Log("Their cached packet should be received by me")
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theirCachedPacket := r.RouteForAllUntilTxTun(myControl)
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assertUdpPacket(t, []byte("Hi from them"), theirCachedPacket, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), 80, 80)
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r.Log("Do a bidirectional tunnel test")
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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myHostmapHosts := myControl.ListHostmapHosts(false)
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myHostmapIndexes := myControl.ListHostmapIndexes(false)
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theirHostmapHosts := theirControl.ListHostmapHosts(false)
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theirHostmapIndexes := theirControl.ListHostmapIndexes(false)
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// We should have two tunnels on both sides
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assert.Len(t, myHostmapHosts, 1)
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assert.Len(t, theirHostmapHosts, 1)
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assert.Len(t, myHostmapIndexes, 2)
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assert.Len(t, theirHostmapIndexes, 2)
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r.RenderHostmaps("Starting hostmaps", myControl, theirControl)
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r.Log("Spin until connection manager tears down a tunnel")
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for len(myControl.GetHostmap().Indexes)+len(theirControl.GetHostmap().Indexes) > 2 {
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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t.Log("Connection manager hasn't ticked yet")
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time.Sleep(time.Second)
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}
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myFinalHostmapHosts := myControl.ListHostmapHosts(false)
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myFinalHostmapIndexes := myControl.ListHostmapIndexes(false)
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theirFinalHostmapHosts := theirControl.ListHostmapHosts(false)
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theirFinalHostmapIndexes := theirControl.ListHostmapIndexes(false)
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// We should only have a single tunnel now on both sides
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assert.Len(t, myFinalHostmapHosts, 1)
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assert.Len(t, theirFinalHostmapHosts, 1)
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assert.Len(t, myFinalHostmapIndexes, 1)
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assert.Len(t, theirFinalHostmapIndexes, 1)
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r.RenderHostmaps("Final hostmaps", myControl, theirControl)
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myControl.Stop()
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theirControl.Stop()
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}
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func TestUncleanShutdownRaceLoser(t *testing.T) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
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// Teach my how to get to the relay and that their can be reached via the relay
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
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// Build a router so we don't have to reason who gets which packet
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r := router.NewR(t, myControl, theirControl)
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defer r.RenderFlow()
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// Start the servers
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myControl.Start()
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theirControl.Start()
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r.Log("Trigger a handshake from me to them")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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p := r.RouteForAllUntilTxTun(theirControl)
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assertUdpPacket(t, []byte("Hi from me"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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r.Log("Nuke my hostmap")
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myHostmap := myControl.GetHostmap()
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myHostmap.Hosts = map[netip.Addr]*nebula.HostInfo{}
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myHostmap.Indexes = map[uint32]*nebula.HostInfo{}
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myHostmap.RemoteIndexes = map[uint32]*nebula.HostInfo{}
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me again"))
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p = r.RouteForAllUntilTxTun(theirControl)
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assertUdpPacket(t, []byte("Hi from me again"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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r.Log("Assert the tunnel works")
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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r.Log("Wait for the dead index to go away")
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start := len(theirControl.GetHostmap().Indexes)
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for {
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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if len(theirControl.GetHostmap().Indexes) < start {
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break
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}
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time.Sleep(time.Second)
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}
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r.RenderHostmaps("Final hostmaps", myControl, theirControl)
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}
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func TestUncleanShutdownRaceWinner(t *testing.T) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", nil)
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
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// Teach my how to get to the relay and that their can be reached via the relay
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myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
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// Build a router so we don't have to reason who gets which packet
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r := router.NewR(t, myControl, theirControl)
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defer r.RenderFlow()
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// Start the servers
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myControl.Start()
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theirControl.Start()
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r.Log("Trigger a handshake from me to them")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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p := r.RouteForAllUntilTxTun(theirControl)
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assertUdpPacket(t, []byte("Hi from me"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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r.RenderHostmaps("Final hostmaps", myControl, theirControl)
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r.Log("Nuke my hostmap")
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theirHostmap := theirControl.GetHostmap()
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theirHostmap.Hosts = map[netip.Addr]*nebula.HostInfo{}
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theirHostmap.Indexes = map[uint32]*nebula.HostInfo{}
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theirHostmap.RemoteIndexes = map[uint32]*nebula.HostInfo{}
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theirControl.InjectTunUDPPacket(myVpnIpNet.Addr(), 80, 80, []byte("Hi from them again"))
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p = r.RouteForAllUntilTxTun(myControl)
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assertUdpPacket(t, []byte("Hi from them again"), p, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), 80, 80)
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r.RenderHostmaps("Derp hostmaps", myControl, theirControl)
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r.Log("Assert the tunnel works")
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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r.Log("Wait for the dead index to go away")
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start := len(myControl.GetHostmap().Indexes)
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for {
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assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
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if len(myControl.GetHostmap().Indexes) < start {
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break
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}
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time.Sleep(time.Second)
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}
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r.RenderHostmaps("Final hostmaps", myControl, theirControl)
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}
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func TestRelays(t *testing.T) {
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, _, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", m{"relay": m{"use_relays": true}})
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relayControl, relayVpnIpNet, relayUdpAddr, _ := newSimpleServer(ca, caKey, "relay ", "10.128.0.128/24", m{"relay": m{"am_relay": true}})
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them ", "10.128.0.2/24", m{"relay": m{"use_relays": true}})
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// Teach my how to get to the relay and that their can be reached via the relay
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myControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
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myControl.InjectRelays(theirVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
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relayControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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// Build a router so we don't have to reason who gets which packet
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r := router.NewR(t, myControl, relayControl, theirControl)
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defer r.RenderFlow()
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// Start the servers
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myControl.Start()
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relayControl.Start()
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theirControl.Start()
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t.Log("Trigger a handshake from me to them via the relay")
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myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
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p := r.RouteForAllUntilTxTun(theirControl)
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r.Log("Assert the tunnel works")
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assertUdpPacket(t, []byte("Hi from me"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
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r.RenderHostmaps("Final hostmaps", myControl, relayControl, theirControl)
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//TODO: assert we actually used the relay even though it should be impossible for a tunnel to have occurred without it
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}
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func TestStage1RaceRelays(t *testing.T) {
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//NOTE: this is a race between me and relay resulting in a full tunnel from me to them via relay
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ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
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myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", m{"relay": m{"use_relays": true}})
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relayControl, relayVpnIpNet, relayUdpAddr, _ := newSimpleServer(ca, caKey, "relay ", "10.128.0.128/24", m{"relay": m{"am_relay": true}})
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theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them ", "10.128.0.2/24", m{"relay": m{"use_relays": true}})
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// Teach my how to get to the relay and that their can be reached via the relay
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myControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
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theirControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
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myControl.InjectRelays(theirVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
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theirControl.InjectRelays(myVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
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relayControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
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relayControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
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// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, relayControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
relayControl.Start()
|
|
theirControl.Start()
|
|
|
|
r.Log("Get a tunnel between me and relay")
|
|
assertTunnel(t, myVpnIpNet.Addr(), relayVpnIpNet.Addr(), myControl, relayControl, r)
|
|
|
|
r.Log("Get a tunnel between them and relay")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), relayVpnIpNet.Addr(), theirControl, relayControl, r)
|
|
|
|
r.Log("Trigger a handshake from both them and me via relay to them and me")
|
|
myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
|
|
theirControl.InjectTunUDPPacket(myVpnIpNet.Addr(), 80, 80, []byte("Hi from them"))
|
|
|
|
r.Log("Wait for a packet from them to me")
|
|
p := r.RouteForAllUntilTxTun(myControl)
|
|
_ = p
|
|
|
|
r.FlushAll()
|
|
|
|
myControl.Stop()
|
|
theirControl.Stop()
|
|
relayControl.Stop()
|
|
//
|
|
////TODO: assert hostmaps
|
|
}
|
|
|
|
func TestStage1RaceRelays2(t *testing.T) {
|
|
//NOTE: this is a race between me and relay resulting in a full tunnel from me to them via relay
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", m{"relay": m{"use_relays": true}})
|
|
relayControl, relayVpnIpNet, relayUdpAddr, _ := newSimpleServer(ca, caKey, "relay ", "10.128.0.128/24", m{"relay": m{"am_relay": true}})
|
|
theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them ", "10.128.0.2/24", m{"relay": m{"use_relays": true}})
|
|
l := NewTestLogger()
|
|
|
|
// Teach my how to get to the relay and that their can be reached via the relay
|
|
myControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
|
|
theirControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
|
|
|
|
myControl.InjectRelays(theirVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
|
|
theirControl.InjectRelays(myVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
|
|
|
|
relayControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
relayControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
|
|
|
|
// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, relayControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
relayControl.Start()
|
|
theirControl.Start()
|
|
|
|
r.Log("Get a tunnel between me and relay")
|
|
l.Info("Get a tunnel between me and relay")
|
|
assertTunnel(t, myVpnIpNet.Addr(), relayVpnIpNet.Addr(), myControl, relayControl, r)
|
|
|
|
r.Log("Get a tunnel between them and relay")
|
|
l.Info("Get a tunnel between them and relay")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), relayVpnIpNet.Addr(), theirControl, relayControl, r)
|
|
|
|
r.Log("Trigger a handshake from both them and me via relay to them and me")
|
|
l.Info("Trigger a handshake from both them and me via relay to them and me")
|
|
myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
|
|
theirControl.InjectTunUDPPacket(myVpnIpNet.Addr(), 80, 80, []byte("Hi from them"))
|
|
|
|
//r.RouteUntilAfterMsgType(myControl, header.Control, header.MessageNone)
|
|
//r.RouteUntilAfterMsgType(theirControl, header.Control, header.MessageNone)
|
|
|
|
r.Log("Wait for a packet from them to me")
|
|
l.Info("Wait for a packet from them to me; myControl")
|
|
r.RouteForAllUntilTxTun(myControl)
|
|
l.Info("Wait for a packet from them to me; theirControl")
|
|
r.RouteForAllUntilTxTun(theirControl)
|
|
|
|
r.Log("Assert the tunnel works")
|
|
l.Info("Assert the tunnel works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
|
|
t.Log("Wait until we remove extra tunnels")
|
|
l.Info("Wait until we remove extra tunnels")
|
|
l.WithFields(
|
|
logrus.Fields{
|
|
"myControl": len(myControl.GetHostmap().Indexes),
|
|
"theirControl": len(theirControl.GetHostmap().Indexes),
|
|
"relayControl": len(relayControl.GetHostmap().Indexes),
|
|
}).Info("Waiting for hostinfos to be removed...")
|
|
hostInfos := len(myControl.GetHostmap().Indexes) + len(theirControl.GetHostmap().Indexes) + len(relayControl.GetHostmap().Indexes)
|
|
retries := 60
|
|
for hostInfos > 6 && retries > 0 {
|
|
hostInfos = len(myControl.GetHostmap().Indexes) + len(theirControl.GetHostmap().Indexes) + len(relayControl.GetHostmap().Indexes)
|
|
l.WithFields(
|
|
logrus.Fields{
|
|
"myControl": len(myControl.GetHostmap().Indexes),
|
|
"theirControl": len(theirControl.GetHostmap().Indexes),
|
|
"relayControl": len(relayControl.GetHostmap().Indexes),
|
|
}).Info("Waiting for hostinfos to be removed...")
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
t.Log("Connection manager hasn't ticked yet")
|
|
time.Sleep(time.Second)
|
|
retries--
|
|
}
|
|
|
|
r.Log("Assert the tunnel works")
|
|
l.Info("Assert the tunnel works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
|
|
myControl.Stop()
|
|
theirControl.Stop()
|
|
relayControl.Stop()
|
|
|
|
//
|
|
////TODO: assert hostmaps
|
|
}
|
|
|
|
func TestRehandshakingRelays(t *testing.T) {
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, _, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.1/24", m{"relay": m{"use_relays": true}})
|
|
relayControl, relayVpnIpNet, relayUdpAddr, relayConfig := newSimpleServer(ca, caKey, "relay ", "10.128.0.128/24", m{"relay": m{"am_relay": true}})
|
|
theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them ", "10.128.0.2/24", m{"relay": m{"use_relays": true}})
|
|
|
|
// Teach my how to get to the relay and that their can be reached via the relay
|
|
myControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
|
|
myControl.InjectRelays(theirVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
|
|
relayControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
|
|
// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, relayControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
relayControl.Start()
|
|
theirControl.Start()
|
|
|
|
t.Log("Trigger a handshake from me to them via the relay")
|
|
myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
|
|
|
|
p := r.RouteForAllUntilTxTun(theirControl)
|
|
r.Log("Assert the tunnel works")
|
|
assertUdpPacket(t, []byte("Hi from me"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
|
|
r.RenderHostmaps("working hostmaps", myControl, relayControl, theirControl)
|
|
|
|
// When I update the certificate for the relay, both me and them will have 2 host infos for the relay,
|
|
// and the main host infos will not have any relay state to handle the me<->relay<->them tunnel.
|
|
r.Log("Renew relay certificate and spin until me and them sees it")
|
|
_, _, myNextPrivKey, myNextPEM := NewTestCert(ca, caKey, "relay", time.Now(), time.Now().Add(5*time.Minute), relayVpnIpNet, nil, []string{"new group"})
|
|
|
|
caB, err := ca.MarshalToPEM()
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
|
|
relayConfig.Settings["pki"] = m{
|
|
"ca": string(caB),
|
|
"cert": string(myNextPEM),
|
|
"key": string(myNextPrivKey),
|
|
}
|
|
rc, err := yaml.Marshal(relayConfig.Settings)
|
|
assert.NoError(t, err)
|
|
relayConfig.ReloadConfigString(string(rc))
|
|
|
|
for {
|
|
r.Log("Assert the tunnel works between myVpnIpNet and relayVpnIpNet")
|
|
assertTunnel(t, myVpnIpNet.Addr(), relayVpnIpNet.Addr(), myControl, relayControl, r)
|
|
c := myControl.GetHostInfoByVpnIp(relayVpnIpNet.Addr(), false)
|
|
if len(c.Cert.Details.Groups) != 0 {
|
|
// We have a new certificate now
|
|
r.Log("Certificate between my and relay is updated!")
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
for {
|
|
r.Log("Assert the tunnel works between theirVpnIpNet and relayVpnIpNet")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), relayVpnIpNet.Addr(), theirControl, relayControl, r)
|
|
c := theirControl.GetHostInfoByVpnIp(relayVpnIpNet.Addr(), false)
|
|
if len(c.Cert.Details.Groups) != 0 {
|
|
// We have a new certificate now
|
|
r.Log("Certificate between their and relay is updated!")
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.RenderHostmaps("working hostmaps", myControl, relayControl, theirControl)
|
|
// We should have two hostinfos on all sides
|
|
for len(myControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for myControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(myControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("myControl hostinfos got cleaned up!")
|
|
for len(theirControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for theirControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(theirControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("theirControl hostinfos got cleaned up!")
|
|
for len(relayControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for relayControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(relayControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("relayControl hostinfos got cleaned up!")
|
|
}
|
|
|
|
func TestRehandshakingRelaysPrimary(t *testing.T) {
|
|
// This test is the same as TestRehandshakingRelays but one of the terminal types is a primary swap winner
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, _, _ := newSimpleServer(ca, caKey, "me ", "10.128.0.128/24", m{"relay": m{"use_relays": true}})
|
|
relayControl, relayVpnIpNet, relayUdpAddr, relayConfig := newSimpleServer(ca, caKey, "relay ", "10.128.0.1/24", m{"relay": m{"am_relay": true}})
|
|
theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them ", "10.128.0.2/24", m{"relay": m{"use_relays": true}})
|
|
|
|
// Teach my how to get to the relay and that their can be reached via the relay
|
|
myControl.InjectLightHouseAddr(relayVpnIpNet.Addr(), relayUdpAddr)
|
|
myControl.InjectRelays(theirVpnIpNet.Addr(), []netip.Addr{relayVpnIpNet.Addr()})
|
|
relayControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
|
|
// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, relayControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
relayControl.Start()
|
|
theirControl.Start()
|
|
|
|
t.Log("Trigger a handshake from me to them via the relay")
|
|
myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
|
|
|
|
p := r.RouteForAllUntilTxTun(theirControl)
|
|
r.Log("Assert the tunnel works")
|
|
assertUdpPacket(t, []byte("Hi from me"), p, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), 80, 80)
|
|
r.RenderHostmaps("working hostmaps", myControl, relayControl, theirControl)
|
|
|
|
// When I update the certificate for the relay, both me and them will have 2 host infos for the relay,
|
|
// and the main host infos will not have any relay state to handle the me<->relay<->them tunnel.
|
|
r.Log("Renew relay certificate and spin until me and them sees it")
|
|
_, _, myNextPrivKey, myNextPEM := NewTestCert(ca, caKey, "relay", time.Now(), time.Now().Add(5*time.Minute), relayVpnIpNet, nil, []string{"new group"})
|
|
|
|
caB, err := ca.MarshalToPEM()
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
|
|
relayConfig.Settings["pki"] = m{
|
|
"ca": string(caB),
|
|
"cert": string(myNextPEM),
|
|
"key": string(myNextPrivKey),
|
|
}
|
|
rc, err := yaml.Marshal(relayConfig.Settings)
|
|
assert.NoError(t, err)
|
|
relayConfig.ReloadConfigString(string(rc))
|
|
|
|
for {
|
|
r.Log("Assert the tunnel works between myVpnIpNet and relayVpnIpNet")
|
|
assertTunnel(t, myVpnIpNet.Addr(), relayVpnIpNet.Addr(), myControl, relayControl, r)
|
|
c := myControl.GetHostInfoByVpnIp(relayVpnIpNet.Addr(), false)
|
|
if len(c.Cert.Details.Groups) != 0 {
|
|
// We have a new certificate now
|
|
r.Log("Certificate between my and relay is updated!")
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
for {
|
|
r.Log("Assert the tunnel works between theirVpnIpNet and relayVpnIpNet")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), relayVpnIpNet.Addr(), theirControl, relayControl, r)
|
|
c := theirControl.GetHostInfoByVpnIp(relayVpnIpNet.Addr(), false)
|
|
if len(c.Cert.Details.Groups) != 0 {
|
|
// We have a new certificate now
|
|
r.Log("Certificate between their and relay is updated!")
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.RenderHostmaps("working hostmaps", myControl, relayControl, theirControl)
|
|
// We should have two hostinfos on all sides
|
|
for len(myControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for myControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(myControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("myControl hostinfos got cleaned up!")
|
|
for len(theirControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for theirControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(theirControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("theirControl hostinfos got cleaned up!")
|
|
for len(relayControl.GetHostmap().Indexes) != 2 {
|
|
t.Logf("Waiting for relayControl hostinfos (%v != 2) to get cleaned up from lack of use...", len(relayControl.GetHostmap().Indexes))
|
|
r.Log("Assert the relay tunnel still works")
|
|
assertTunnel(t, theirVpnIpNet.Addr(), myVpnIpNet.Addr(), theirControl, myControl, r)
|
|
r.Log("yupitdoes")
|
|
time.Sleep(time.Second)
|
|
}
|
|
t.Logf("relayControl hostinfos got cleaned up!")
|
|
}
|
|
|
|
func TestRehandshaking(t *testing.T) {
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, myUdpAddr, myConfig := newSimpleServer(ca, caKey, "me ", "10.128.0.2/24", nil)
|
|
theirControl, theirVpnIpNet, theirUdpAddr, theirConfig := newSimpleServer(ca, caKey, "them", "10.128.0.1/24", nil)
|
|
|
|
// Put their info in our lighthouse and vice versa
|
|
myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
|
|
|
|
// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
theirControl.Start()
|
|
|
|
t.Log("Stand up a tunnel between me and them")
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
|
|
r.RenderHostmaps("Starting hostmaps", myControl, theirControl)
|
|
|
|
r.Log("Renew my certificate and spin until their sees it")
|
|
_, _, myNextPrivKey, myNextPEM := NewTestCert(ca, caKey, "me", time.Now(), time.Now().Add(5*time.Minute), myVpnIpNet, nil, []string{"new group"})
|
|
|
|
caB, err := ca.MarshalToPEM()
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
|
|
myConfig.Settings["pki"] = m{
|
|
"ca": string(caB),
|
|
"cert": string(myNextPEM),
|
|
"key": string(myNextPrivKey),
|
|
}
|
|
rc, err := yaml.Marshal(myConfig.Settings)
|
|
assert.NoError(t, err)
|
|
myConfig.ReloadConfigString(string(rc))
|
|
|
|
for {
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
c := theirControl.GetHostInfoByVpnIp(myVpnIpNet.Addr(), false)
|
|
if len(c.Cert.Details.Groups) != 0 {
|
|
// We have a new certificate now
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
// Flip their firewall to only allowing the new group to catch the tunnels reverting incorrectly
|
|
rc, err = yaml.Marshal(theirConfig.Settings)
|
|
assert.NoError(t, err)
|
|
var theirNewConfig m
|
|
assert.NoError(t, yaml.Unmarshal(rc, &theirNewConfig))
|
|
theirFirewall := theirNewConfig["firewall"].(map[interface{}]interface{})
|
|
theirFirewall["inbound"] = []m{{
|
|
"proto": "any",
|
|
"port": "any",
|
|
"group": "new group",
|
|
}}
|
|
rc, err = yaml.Marshal(theirNewConfig)
|
|
assert.NoError(t, err)
|
|
theirConfig.ReloadConfigString(string(rc))
|
|
|
|
r.Log("Spin until there is only 1 tunnel")
|
|
for len(myControl.GetHostmap().Indexes)+len(theirControl.GetHostmap().Indexes) > 2 {
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
t.Log("Connection manager hasn't ticked yet")
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
myFinalHostmapHosts := myControl.ListHostmapHosts(false)
|
|
myFinalHostmapIndexes := myControl.ListHostmapIndexes(false)
|
|
theirFinalHostmapHosts := theirControl.ListHostmapHosts(false)
|
|
theirFinalHostmapIndexes := theirControl.ListHostmapIndexes(false)
|
|
|
|
// Make sure the correct tunnel won
|
|
c := theirControl.GetHostInfoByVpnIp(myVpnIpNet.Addr(), false)
|
|
assert.Contains(t, c.Cert.Details.Groups, "new group")
|
|
|
|
// We should only have a single tunnel now on both sides
|
|
assert.Len(t, myFinalHostmapHosts, 1)
|
|
assert.Len(t, theirFinalHostmapHosts, 1)
|
|
assert.Len(t, myFinalHostmapIndexes, 1)
|
|
assert.Len(t, theirFinalHostmapIndexes, 1)
|
|
|
|
r.RenderHostmaps("Final hostmaps", myControl, theirControl)
|
|
|
|
myControl.Stop()
|
|
theirControl.Stop()
|
|
}
|
|
|
|
func TestRehandshakingLoser(t *testing.T) {
|
|
// The purpose of this test is that the race loser renews their certificate and rehandshakes. The final tunnel
|
|
// Should be the one with the new certificate
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, myUdpAddr, myConfig := newSimpleServer(ca, caKey, "me ", "10.128.0.2/24", nil)
|
|
theirControl, theirVpnIpNet, theirUdpAddr, theirConfig := newSimpleServer(ca, caKey, "them", "10.128.0.1/24", nil)
|
|
|
|
// Put their info in our lighthouse and vice versa
|
|
myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
|
|
|
|
// Build a router so we don't have to reason who gets which packet
|
|
r := router.NewR(t, myControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
theirControl.Start()
|
|
|
|
t.Log("Stand up a tunnel between me and them")
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
|
|
tt1 := myControl.GetHostInfoByVpnIp(theirVpnIpNet.Addr(), false)
|
|
tt2 := theirControl.GetHostInfoByVpnIp(myVpnIpNet.Addr(), false)
|
|
fmt.Println(tt1.LocalIndex, tt2.LocalIndex)
|
|
|
|
r.RenderHostmaps("Starting hostmaps", myControl, theirControl)
|
|
|
|
r.Log("Renew their certificate and spin until mine sees it")
|
|
_, _, theirNextPrivKey, theirNextPEM := NewTestCert(ca, caKey, "them", time.Now(), time.Now().Add(5*time.Minute), theirVpnIpNet, nil, []string{"their new group"})
|
|
|
|
caB, err := ca.MarshalToPEM()
|
|
if err != nil {
|
|
panic(err)
|
|
}
|
|
|
|
theirConfig.Settings["pki"] = m{
|
|
"ca": string(caB),
|
|
"cert": string(theirNextPEM),
|
|
"key": string(theirNextPrivKey),
|
|
}
|
|
rc, err := yaml.Marshal(theirConfig.Settings)
|
|
assert.NoError(t, err)
|
|
theirConfig.ReloadConfigString(string(rc))
|
|
|
|
for {
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
theirCertInMe := myControl.GetHostInfoByVpnIp(theirVpnIpNet.Addr(), false)
|
|
|
|
_, theirNewGroup := theirCertInMe.Cert.Details.InvertedGroups["their new group"]
|
|
if theirNewGroup {
|
|
break
|
|
}
|
|
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
// Flip my firewall to only allowing the new group to catch the tunnels reverting incorrectly
|
|
rc, err = yaml.Marshal(myConfig.Settings)
|
|
assert.NoError(t, err)
|
|
var myNewConfig m
|
|
assert.NoError(t, yaml.Unmarshal(rc, &myNewConfig))
|
|
theirFirewall := myNewConfig["firewall"].(map[interface{}]interface{})
|
|
theirFirewall["inbound"] = []m{{
|
|
"proto": "any",
|
|
"port": "any",
|
|
"group": "their new group",
|
|
}}
|
|
rc, err = yaml.Marshal(myNewConfig)
|
|
assert.NoError(t, err)
|
|
myConfig.ReloadConfigString(string(rc))
|
|
|
|
r.Log("Spin until there is only 1 tunnel")
|
|
for len(myControl.GetHostmap().Indexes)+len(theirControl.GetHostmap().Indexes) > 2 {
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
t.Log("Connection manager hasn't ticked yet")
|
|
time.Sleep(time.Second)
|
|
}
|
|
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
myFinalHostmapHosts := myControl.ListHostmapHosts(false)
|
|
myFinalHostmapIndexes := myControl.ListHostmapIndexes(false)
|
|
theirFinalHostmapHosts := theirControl.ListHostmapHosts(false)
|
|
theirFinalHostmapIndexes := theirControl.ListHostmapIndexes(false)
|
|
|
|
// Make sure the correct tunnel won
|
|
theirCertInMe := myControl.GetHostInfoByVpnIp(theirVpnIpNet.Addr(), false)
|
|
assert.Contains(t, theirCertInMe.Cert.Details.Groups, "their new group")
|
|
|
|
// We should only have a single tunnel now on both sides
|
|
assert.Len(t, myFinalHostmapHosts, 1)
|
|
assert.Len(t, theirFinalHostmapHosts, 1)
|
|
assert.Len(t, myFinalHostmapIndexes, 1)
|
|
assert.Len(t, theirFinalHostmapIndexes, 1)
|
|
|
|
r.RenderHostmaps("Final hostmaps", myControl, theirControl)
|
|
myControl.Stop()
|
|
theirControl.Stop()
|
|
}
|
|
|
|
func TestRaceRegression(t *testing.T) {
|
|
// This test forces stage 1, stage 2, stage 1 to be received by me from them
|
|
// We had a bug where we were not finding the duplicate handshake and responding to the final stage 1 which
|
|
// caused a cross-linked hostinfo
|
|
ca, _, caKey, _ := NewTestCaCert(time.Now(), time.Now().Add(10*time.Minute), nil, nil, []string{})
|
|
myControl, myVpnIpNet, myUdpAddr, _ := newSimpleServer(ca, caKey, "me", "10.128.0.1/24", nil)
|
|
theirControl, theirVpnIpNet, theirUdpAddr, _ := newSimpleServer(ca, caKey, "them", "10.128.0.2/24", nil)
|
|
|
|
// Put their info in our lighthouse
|
|
myControl.InjectLightHouseAddr(theirVpnIpNet.Addr(), theirUdpAddr)
|
|
theirControl.InjectLightHouseAddr(myVpnIpNet.Addr(), myUdpAddr)
|
|
|
|
// Start the servers
|
|
myControl.Start()
|
|
theirControl.Start()
|
|
|
|
//them rx stage:1 initiatorIndex=642843150 responderIndex=0
|
|
//me rx stage:1 initiatorIndex=120607833 responderIndex=0
|
|
//them rx stage:1 initiatorIndex=642843150 responderIndex=0
|
|
//me rx stage:2 initiatorIndex=642843150 responderIndex=3701775874
|
|
//me rx stage:1 initiatorIndex=120607833 responderIndex=0
|
|
//them rx stage:2 initiatorIndex=120607833 responderIndex=4209862089
|
|
|
|
t.Log("Start both handshakes")
|
|
myControl.InjectTunUDPPacket(theirVpnIpNet.Addr(), 80, 80, []byte("Hi from me"))
|
|
theirControl.InjectTunUDPPacket(myVpnIpNet.Addr(), 80, 80, []byte("Hi from them"))
|
|
|
|
t.Log("Get both stage 1")
|
|
myStage1ForThem := myControl.GetFromUDP(true)
|
|
theirStage1ForMe := theirControl.GetFromUDP(true)
|
|
|
|
t.Log("Inject them in a special way")
|
|
theirControl.InjectUDPPacket(myStage1ForThem)
|
|
myControl.InjectUDPPacket(theirStage1ForMe)
|
|
theirControl.InjectUDPPacket(myStage1ForThem)
|
|
|
|
//TODO: ensure stage 2
|
|
t.Log("Get both stage 2")
|
|
myStage2ForThem := myControl.GetFromUDP(true)
|
|
theirStage2ForMe := theirControl.GetFromUDP(true)
|
|
|
|
t.Log("Inject them in a special way again")
|
|
myControl.InjectUDPPacket(theirStage2ForMe)
|
|
myControl.InjectUDPPacket(theirStage1ForMe)
|
|
theirControl.InjectUDPPacket(myStage2ForThem)
|
|
|
|
r := router.NewR(t, myControl, theirControl)
|
|
defer r.RenderFlow()
|
|
|
|
t.Log("Flush the packets")
|
|
r.RouteForAllUntilTxTun(myControl)
|
|
r.RouteForAllUntilTxTun(theirControl)
|
|
r.RenderHostmaps("Starting hostmaps", myControl, theirControl)
|
|
|
|
t.Log("Make sure the tunnel still works")
|
|
assertTunnel(t, myVpnIpNet.Addr(), theirVpnIpNet.Addr(), myControl, theirControl, r)
|
|
|
|
myControl.Stop()
|
|
theirControl.Stop()
|
|
}
|
|
|
|
//TODO: test
|
|
// Race winner renews and handshakes
|
|
// Race loser renews and handshakes
|
|
// Does race winner repin the cert to old?
|
|
//TODO: add a test with many lies
|