headscale/integration/route_test.go

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package integration
import (
"fmt"
"log"
"net/netip"
"sort"
"strconv"
"testing"
"time"
"github.com/google/go-cmp/cmp"
v1 "github.com/juanfont/headscale/gen/go/headscale/v1"
"github.com/juanfont/headscale/hscontrol/policy"
"github.com/juanfont/headscale/hscontrol/util"
"github.com/juanfont/headscale/integration/hsic"
"github.com/juanfont/headscale/integration/tsic"
"github.com/stretchr/testify/assert"
"tailscale.com/types/ipproto"
"tailscale.com/types/views"
"tailscale.com/wgengine/filter"
)
// This test is both testing the routes command and the propagation of
// routes.
func TestEnablingRoutes(t *testing.T) {
IntegrationSkip(t)
t.Parallel()
user := "enable-routing"
scenario, err := NewScenario(dockertestMaxWait())
assertNoErrf(t, "failed to create scenario: %s", err)
defer scenario.Shutdown()
spec := map[string]int{
user: 3,
}
err = scenario.CreateHeadscaleEnv(spec, []tsic.Option{}, hsic.WithTestName("clienableroute"))
assertNoErrHeadscaleEnv(t, err)
allClients, err := scenario.ListTailscaleClients()
assertNoErrListClients(t, err)
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
headscale, err := scenario.Headscale()
assertNoErrGetHeadscale(t, err)
expectedRoutes := map[string]string{
"1": "10.0.0.0/24",
"2": "10.0.1.0/24",
"3": "10.0.2.0/24",
}
// advertise routes using the up command
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
command := []string{
"tailscale",
"set",
"--advertise-routes=" + expectedRoutes[string(status.Self.ID)],
}
_, _, err = client.Execute(command)
assertNoErrf(t, "failed to advertise route: %s", err)
}
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
var routes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routes,
)
assertNoErr(t, err)
assert.Len(t, routes, 3)
for _, route := range routes {
assert.Equal(t, true, route.GetAdvertised())
assert.Equal(t, false, route.GetEnabled())
assert.Equal(t, false, route.GetIsPrimary())
}
// Verify that no routes has been sent to the client,
// they are not yet enabled.
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
for _, peerKey := range status.Peers() {
peerStatus := status.Peer[peerKey]
assert.Nil(t, peerStatus.PrimaryRoutes)
}
}
// Enable all routes
for _, route := range routes {
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"enable",
"--route",
strconv.Itoa(int(route.GetId())),
})
assertNoErr(t, err)
}
var enablingRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&enablingRoutes,
)
assertNoErr(t, err)
assert.Len(t, enablingRoutes, 3)
for _, route := range enablingRoutes {
assert.Equal(t, true, route.GetAdvertised())
assert.Equal(t, true, route.GetEnabled())
assert.Equal(t, true, route.GetIsPrimary())
}
time.Sleep(5 * time.Second)
// Verify that the clients can see the new routes
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
for _, peerKey := range status.Peers() {
peerStatus := status.Peer[peerKey]
assert.NotNil(t, peerStatus.PrimaryRoutes)
if peerStatus.PrimaryRoutes == nil {
continue
}
pRoutes := peerStatus.PrimaryRoutes.AsSlice()
assert.Len(t, pRoutes, 1)
if len(pRoutes) > 0 {
peerRoute := peerStatus.PrimaryRoutes.AsSlice()[0]
// id starts at 1, we created routes with 0 index
assert.Equalf(
t,
expectedRoutes[string(peerStatus.ID)],
peerRoute.String(),
"expected route %s to be present on peer %s (%s) in %s (%s) status",
expectedRoutes[string(peerStatus.ID)],
peerStatus.HostName,
peerStatus.ID,
client.Hostname(),
client.ID(),
)
}
}
}
routeToBeDisabled := enablingRoutes[0]
log.Printf("preparing to disable %v", routeToBeDisabled)
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"disable",
"--route",
strconv.Itoa(int(routeToBeDisabled.GetId())),
})
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var disablingRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&disablingRoutes,
)
assertNoErr(t, err)
for _, route := range disablingRoutes {
assert.Equal(t, true, route.GetAdvertised())
if route.GetId() == routeToBeDisabled.GetId() {
assert.Equal(t, false, route.GetEnabled())
// since this is the only route of this cidr,
// it will not failover, and remain Primary
// until something can replace it.
assert.Equal(t, true, route.GetIsPrimary())
} else {
assert.Equal(t, true, route.GetEnabled())
assert.Equal(t, true, route.GetIsPrimary())
}
}
// Verify that the clients can see the new routes
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
for _, peerKey := range status.Peers() {
peerStatus := status.Peer[peerKey]
if string(peerStatus.ID) == fmt.Sprintf("%d", routeToBeDisabled.GetNode().GetId()) {
assert.Nilf(
t,
peerStatus.PrimaryRoutes,
"expected node %s to have no routes, got primary route (%v)",
peerStatus.HostName,
peerStatus.PrimaryRoutes,
)
}
}
}
}
func TestHASubnetRouterFailover(t *testing.T) {
IntegrationSkip(t)
t.Parallel()
user := "enable-routing"
scenario, err := NewScenario(dockertestMaxWait())
assertNoErrf(t, "failed to create scenario: %s", err)
2024-04-27 08:47:39 +00:00
defer scenario.Shutdown()
spec := map[string]int{
user: 3,
}
err = scenario.CreateHeadscaleEnv(spec, []tsic.Option{}, hsic.WithTestName("clienableroute"))
assertNoErrHeadscaleEnv(t, err)
allClients, err := scenario.ListTailscaleClients()
assertNoErrListClients(t, err)
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
headscale, err := scenario.Headscale()
assertNoErrGetHeadscale(t, err)
expectedRoutes := map[string]string{
"1": "10.0.0.0/24",
"2": "10.0.0.0/24",
}
// Sort nodes by ID
sort.SliceStable(allClients, func(i, j int) bool {
statusI, err := allClients[i].Status()
if err != nil {
return false
}
statusJ, err := allClients[j].Status()
if err != nil {
return false
}
return statusI.Self.ID < statusJ.Self.ID
})
subRouter1 := allClients[0]
subRouter2 := allClients[1]
client := allClients[2]
t.Logf("Advertise route from r1 (%s) and r2 (%s), making it HA, n1 is primary", subRouter1.Hostname(), subRouter2.Hostname())
// advertise HA route on node 1 and 2
// ID 1 will be primary
// ID 2 will be secondary
for _, client := range allClients[:2] {
status, err := client.Status()
assertNoErr(t, err)
if route, ok := expectedRoutes[string(status.Self.ID)]; ok {
command := []string{
"tailscale",
"set",
"--advertise-routes=" + route,
}
_, _, err = client.Execute(command)
assertNoErrf(t, "failed to advertise route: %s", err)
} else {
t.Fatalf("failed to find route for Node %s (id: %s)", status.Self.HostName, status.Self.ID)
}
}
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
var routes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routes,
)
assertNoErr(t, err)
assert.Len(t, routes, 2)
t.Logf("initial routes %#v", routes)
for _, route := range routes {
assert.Equal(t, true, route.GetAdvertised())
assert.Equal(t, false, route.GetEnabled())
assert.Equal(t, false, route.GetIsPrimary())
}
// Verify that no routes has been sent to the client,
// they are not yet enabled.
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
for _, peerKey := range status.Peers() {
peerStatus := status.Peer[peerKey]
assert.Nil(t, peerStatus.PrimaryRoutes)
}
}
// Enable all routes
for _, route := range routes {
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"enable",
"--route",
strconv.Itoa(int(route.GetId())),
})
assertNoErr(t, err)
time.Sleep(time.Second)
}
var enablingRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&enablingRoutes,
)
assertNoErr(t, err)
assert.Len(t, enablingRoutes, 2)
// Node 1 is primary
assert.Equal(t, true, enablingRoutes[0].GetAdvertised())
assert.Equal(t, true, enablingRoutes[0].GetEnabled())
assert.Equal(t, true, enablingRoutes[0].GetIsPrimary(), "both subnet routers are up, expected r1 to be primary")
// Node 2 is not primary
assert.Equal(t, true, enablingRoutes[1].GetAdvertised())
assert.Equal(t, true, enablingRoutes[1].GetEnabled())
assert.Equal(t, false, enablingRoutes[1].GetIsPrimary(), "both subnet routers are up, expected r2 to be non-primary")
// Verify that the client has routes from the primary machine
srs1, err := subRouter1.Status()
srs2, err := subRouter2.Status()
clientStatus, err := client.Status()
assertNoErr(t, err)
srs1PeerStatus := clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus := clientStatus.Peer[srs2.Self.PublicKey]
assert.True(t, srs1PeerStatus.Online, "r1 up, r2 up")
assert.True(t, srs2PeerStatus.Online, "r1 up, r2 up")
assertNotNil(t, srs1PeerStatus.PrimaryRoutes)
assert.Nil(t, srs2PeerStatus.PrimaryRoutes)
assert.Contains(
t,
srs1PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs1.Self.ID)]),
)
// Take down the current primary
t.Logf("taking down subnet router r1 (%s)", subRouter1.Hostname())
t.Logf("expecting r2 (%s) to take over as primary", subRouter2.Hostname())
err = subRouter1.Down()
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfterMove []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfterMove,
)
assertNoErr(t, err)
assert.Len(t, routesAfterMove, 2)
// Node 1 is not primary
assert.Equal(t, true, routesAfterMove[0].GetAdvertised())
assert.Equal(t, true, routesAfterMove[0].GetEnabled())
assert.Equal(t, false, routesAfterMove[0].GetIsPrimary(), "r1 is down, expected r2 to be primary")
// Node 2 is primary
assert.Equal(t, true, routesAfterMove[1].GetAdvertised())
assert.Equal(t, true, routesAfterMove[1].GetEnabled())
assert.Equal(t, true, routesAfterMove[1].GetIsPrimary(), "r1 is down, expected r2 to be primary")
srs2, err = subRouter2.Status()
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.False(t, srs1PeerStatus.Online, "r1 down, r2 down")
assert.True(t, srs2PeerStatus.Online, "r1 down, r2 up")
assert.Nil(t, srs1PeerStatus.PrimaryRoutes)
assertNotNil(t, srs2PeerStatus.PrimaryRoutes)
if srs2PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs2PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs2.Self.ID)]),
)
}
// Take down subnet router 2, leaving none available
t.Logf("taking down subnet router r2 (%s)", subRouter2.Hostname())
t.Logf("expecting r2 (%s) to remain primary, no other available", subRouter2.Hostname())
err = subRouter2.Down()
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfterBothDown []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfterBothDown,
)
assertNoErr(t, err)
assert.Len(t, routesAfterBothDown, 2)
// Node 1 is not primary
assert.Equal(t, true, routesAfterBothDown[0].GetAdvertised())
assert.Equal(t, true, routesAfterBothDown[0].GetEnabled())
assert.Equal(t, false, routesAfterBothDown[0].GetIsPrimary(), "r1 and r2 is down, expected r2 to _still_ be primary")
// Node 2 is primary
// if the node goes down, but no other suitable route is
// available, keep the last known good route.
assert.Equal(t, true, routesAfterBothDown[1].GetAdvertised())
assert.Equal(t, true, routesAfterBothDown[1].GetEnabled())
assert.Equal(t, true, routesAfterBothDown[1].GetIsPrimary(), "r1 and r2 is down, expected r2 to _still_ be primary")
// TODO(kradalby): Check client status
// Both are expected to be down
// Verify that the route is not presented from either router
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.False(t, srs1PeerStatus.Online, "r1 down, r2 down")
assert.False(t, srs2PeerStatus.Online, "r1 down, r2 down")
assert.Nil(t, srs1PeerStatus.PrimaryRoutes)
assertNotNil(t, srs2PeerStatus.PrimaryRoutes)
if srs2PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs2PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs2.Self.ID)]),
)
}
// Bring up subnet router 1, making the route available from there.
t.Logf("bringing up subnet router r1 (%s)", subRouter1.Hostname())
t.Logf("expecting r1 (%s) to take over as primary (only one online)", subRouter1.Hostname())
err = subRouter1.Up()
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfter1Up []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfter1Up,
)
assertNoErr(t, err)
assert.Len(t, routesAfter1Up, 2)
// Node 1 is primary
assert.Equal(t, true, routesAfter1Up[0].GetAdvertised())
assert.Equal(t, true, routesAfter1Up[0].GetEnabled())
assert.Equal(t, true, routesAfter1Up[0].GetIsPrimary(), "r1 is back up, expected r1 to become be primary")
// Node 2 is not primary
assert.Equal(t, true, routesAfter1Up[1].GetAdvertised())
assert.Equal(t, true, routesAfter1Up[1].GetEnabled())
assert.Equal(t, false, routesAfter1Up[1].GetIsPrimary(), "r1 is back up, expected r1 to become be primary")
// Verify that the route is announced from subnet router 1
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.True(t, srs1PeerStatus.Online, "r1 is back up, r2 down")
assert.False(t, srs2PeerStatus.Online, "r1 is back up, r2 down")
assert.NotNil(t, srs1PeerStatus.PrimaryRoutes)
assert.Nil(t, srs2PeerStatus.PrimaryRoutes)
if srs1PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs1PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs1.Self.ID)]),
)
}
// Bring up subnet router 2, should result in no change.
t.Logf("bringing up subnet router r2 (%s)", subRouter2.Hostname())
t.Logf("both online, expecting r1 (%s) to still be primary (no flapping)", subRouter1.Hostname())
err = subRouter2.Up()
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfter2Up []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfter2Up,
)
assertNoErr(t, err)
assert.Len(t, routesAfter2Up, 2)
// Node 1 is not primary
assert.Equal(t, true, routesAfter2Up[0].GetAdvertised())
assert.Equal(t, true, routesAfter2Up[0].GetEnabled())
assert.Equal(t, true, routesAfter2Up[0].GetIsPrimary(), "r1 and r2 is back up, expected r1 to _still_ be primary")
// Node 2 is primary
assert.Equal(t, true, routesAfter2Up[1].GetAdvertised())
assert.Equal(t, true, routesAfter2Up[1].GetEnabled())
assert.Equal(t, false, routesAfter2Up[1].GetIsPrimary(), "r1 and r2 is back up, expected r1 to _still_ be primary")
// Verify that the route is announced from subnet router 1
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.True(t, srs1PeerStatus.Online, "r1 up, r2 up")
assert.True(t, srs2PeerStatus.Online, "r1 up, r2 up")
assert.NotNil(t, srs1PeerStatus.PrimaryRoutes)
assert.Nil(t, srs2PeerStatus.PrimaryRoutes)
if srs1PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs1PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs1.Self.ID)]),
)
}
// Disable the route of subnet router 1, making it failover to 2
t.Logf("disabling route in subnet router r1 (%s)", subRouter1.Hostname())
t.Logf("expecting route to failover to r2 (%s), which is still available", subRouter2.Hostname())
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"disable",
"--route",
fmt.Sprintf("%d", routesAfter2Up[0].GetId()),
})
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfterDisabling1 []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfterDisabling1,
)
assertNoErr(t, err)
assert.Len(t, routesAfterDisabling1, 2)
t.Logf("routes after disabling r1 %#v", routesAfterDisabling1)
// Node 1 is not primary
assert.Equal(t, true, routesAfterDisabling1[0].GetAdvertised())
assert.Equal(t, false, routesAfterDisabling1[0].GetEnabled())
assert.Equal(t, false, routesAfterDisabling1[0].GetIsPrimary())
// Node 2 is primary
assert.Equal(t, true, routesAfterDisabling1[1].GetAdvertised())
assert.Equal(t, true, routesAfterDisabling1[1].GetEnabled())
assert.Equal(t, true, routesAfterDisabling1[1].GetIsPrimary())
// Verify that the route is announced from subnet router 1
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.Nil(t, srs1PeerStatus.PrimaryRoutes)
assert.NotNil(t, srs2PeerStatus.PrimaryRoutes)
if srs2PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs2PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs2.Self.ID)]),
)
}
// enable the route of subnet router 1, no change expected
t.Logf("enabling route in subnet router 1 (%s)", subRouter1.Hostname())
t.Logf("both online, expecting r2 (%s) to still be primary (no flapping)", subRouter2.Hostname())
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"enable",
"--route",
fmt.Sprintf("%d", routesAfter2Up[0].GetId()),
})
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfterEnabling1 []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfterEnabling1,
)
assertNoErr(t, err)
assert.Len(t, routesAfterEnabling1, 2)
// Node 1 is not primary
assert.Equal(t, true, routesAfterEnabling1[0].GetAdvertised())
assert.Equal(t, true, routesAfterEnabling1[0].GetEnabled())
assert.Equal(t, false, routesAfterEnabling1[0].GetIsPrimary())
// Node 2 is primary
assert.Equal(t, true, routesAfterEnabling1[1].GetAdvertised())
assert.Equal(t, true, routesAfterEnabling1[1].GetEnabled())
assert.Equal(t, true, routesAfterEnabling1[1].GetIsPrimary())
// Verify that the route is announced from subnet router 1
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assert.Nil(t, srs1PeerStatus.PrimaryRoutes)
assert.NotNil(t, srs2PeerStatus.PrimaryRoutes)
if srs2PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs2PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs2.Self.ID)]),
)
}
// delete the route of subnet router 2, failover to one expected
t.Logf("deleting route in subnet router r2 (%s)", subRouter2.Hostname())
t.Logf("expecting route to failover to r1 (%s)", subRouter1.Hostname())
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"delete",
"--route",
fmt.Sprintf("%d", routesAfterEnabling1[1].GetId()),
})
assertNoErr(t, err)
time.Sleep(5 * time.Second)
var routesAfterDeleting2 []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routesAfterDeleting2,
)
assertNoErr(t, err)
assert.Len(t, routesAfterDeleting2, 1)
t.Logf("routes after deleting r2 %#v", routesAfterDeleting2)
// Node 1 is primary
assert.Equal(t, true, routesAfterDeleting2[0].GetAdvertised())
assert.Equal(t, true, routesAfterDeleting2[0].GetEnabled())
assert.Equal(t, true, routesAfterDeleting2[0].GetIsPrimary())
// Verify that the route is announced from subnet router 1
clientStatus, err = client.Status()
assertNoErr(t, err)
srs1PeerStatus = clientStatus.Peer[srs1.Self.PublicKey]
srs2PeerStatus = clientStatus.Peer[srs2.Self.PublicKey]
assertNotNil(t, srs1PeerStatus.PrimaryRoutes)
assert.Nil(t, srs2PeerStatus.PrimaryRoutes)
if srs1PeerStatus.PrimaryRoutes != nil {
assert.Contains(
t,
srs1PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs1.Self.ID)]),
)
}
}
func TestEnableDisableAutoApprovedRoute(t *testing.T) {
IntegrationSkip(t)
t.Parallel()
expectedRoutes := "172.0.0.0/24"
user := "enable-disable-routing"
scenario, err := NewScenario(dockertestMaxWait())
assertNoErrf(t, "failed to create scenario: %s", err)
defer scenario.Shutdown()
spec := map[string]int{
user: 1,
}
err = scenario.CreateHeadscaleEnv(spec, []tsic.Option{tsic.WithTags([]string{"tag:approve"})}, hsic.WithTestName("clienableroute"), hsic.WithACLPolicy(
&policy.ACLPolicy{
ACLs: []policy.ACL{
{
Action: "accept",
Sources: []string{"*"},
Destinations: []string{"*:*"},
},
},
TagOwners: map[string][]string{
"tag:approve": {user},
},
AutoApprovers: policy.AutoApprovers{
Routes: map[string][]string{
expectedRoutes: {"tag:approve"},
},
},
},
))
assertNoErrHeadscaleEnv(t, err)
allClients, err := scenario.ListTailscaleClients()
assertNoErrListClients(t, err)
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
headscale, err := scenario.Headscale()
assertNoErrGetHeadscale(t, err)
subRouter1 := allClients[0]
// Initially advertise route
command := []string{
"tailscale",
"set",
"--advertise-routes=" + expectedRoutes,
}
_, _, err = subRouter1.Execute(command)
assertNoErrf(t, "failed to advertise route: %s", err)
time.Sleep(10 * time.Second)
var routes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routes,
)
assertNoErr(t, err)
assert.Len(t, routes, 1)
// All routes should be auto approved and enabled
assert.Equal(t, true, routes[0].GetAdvertised())
assert.Equal(t, true, routes[0].GetEnabled())
assert.Equal(t, true, routes[0].GetIsPrimary())
// Stop advertising route
command = []string{
"tailscale",
"set",
"--advertise-routes=",
}
_, _, err = subRouter1.Execute(command)
assertNoErrf(t, "failed to remove advertised route: %s", err)
time.Sleep(10 * time.Second)
var notAdvertisedRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&notAdvertisedRoutes,
)
assertNoErr(t, err)
assert.Len(t, notAdvertisedRoutes, 1)
// Route is no longer advertised
assert.Equal(t, false, notAdvertisedRoutes[0].GetAdvertised())
assert.Equal(t, false, notAdvertisedRoutes[0].GetEnabled())
assert.Equal(t, true, notAdvertisedRoutes[0].GetIsPrimary())
// Advertise route again
command = []string{
"tailscale",
"set",
"--advertise-routes=" + expectedRoutes,
}
_, _, err = subRouter1.Execute(command)
assertNoErrf(t, "failed to advertise route: %s", err)
time.Sleep(10 * time.Second)
var reAdvertisedRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&reAdvertisedRoutes,
)
assertNoErr(t, err)
assert.Len(t, reAdvertisedRoutes, 1)
// All routes should be auto approved and enabled
assert.Equal(t, true, reAdvertisedRoutes[0].GetAdvertised())
assert.Equal(t, true, reAdvertisedRoutes[0].GetEnabled())
assert.Equal(t, true, reAdvertisedRoutes[0].GetIsPrimary())
}
// TestSubnetRouteACL verifies that Subnet routes are distributed
// as expected when ACLs are activated.
// It implements the issue from
// https://github.com/juanfont/headscale/issues/1604
func TestSubnetRouteACL(t *testing.T) {
IntegrationSkip(t)
t.Parallel()
user := "subnet-route-acl"
scenario, err := NewScenario(dockertestMaxWait())
assertNoErrf(t, "failed to create scenario: %s", err)
defer scenario.Shutdown()
spec := map[string]int{
user: 2,
}
err = scenario.CreateHeadscaleEnv(spec, []tsic.Option{}, hsic.WithTestName("clienableroute"), hsic.WithACLPolicy(
&policy.ACLPolicy{
Groups: policy.Groups{
"group:admins": {user},
},
ACLs: []policy.ACL{
{
Action: "accept",
Sources: []string{"group:admins"},
Destinations: []string{"group:admins:*"},
},
{
Action: "accept",
Sources: []string{"group:admins"},
Destinations: []string{"10.33.0.0/16:*"},
},
// {
// Action: "accept",
// Sources: []string{"group:admins"},
// Destinations: []string{"0.0.0.0/0:*"},
// },
},
},
))
assertNoErrHeadscaleEnv(t, err)
allClients, err := scenario.ListTailscaleClients()
assertNoErrListClients(t, err)
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
headscale, err := scenario.Headscale()
assertNoErrGetHeadscale(t, err)
expectedRoutes := map[string]string{
"1": "10.33.0.0/16",
}
// Sort nodes by ID
sort.SliceStable(allClients, func(i, j int) bool {
statusI, err := allClients[i].Status()
if err != nil {
return false
}
statusJ, err := allClients[j].Status()
if err != nil {
return false
}
return statusI.Self.ID < statusJ.Self.ID
})
subRouter1 := allClients[0]
client := allClients[1]
// advertise HA route on node 1 and 2
// ID 1 will be primary
// ID 2 will be secondary
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
if route, ok := expectedRoutes[string(status.Self.ID)]; ok {
command := []string{
"tailscale",
"set",
"--advertise-routes=" + route,
}
_, _, err = client.Execute(command)
assertNoErrf(t, "failed to advertise route: %s", err)
}
}
err = scenario.WaitForTailscaleSync()
assertNoErrSync(t, err)
var routes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&routes,
)
assertNoErr(t, err)
assert.Len(t, routes, 1)
for _, route := range routes {
assert.Equal(t, true, route.GetAdvertised())
assert.Equal(t, false, route.GetEnabled())
assert.Equal(t, false, route.GetIsPrimary())
}
// Verify that no routes has been sent to the client,
// they are not yet enabled.
for _, client := range allClients {
status, err := client.Status()
assertNoErr(t, err)
for _, peerKey := range status.Peers() {
peerStatus := status.Peer[peerKey]
assert.Nil(t, peerStatus.PrimaryRoutes)
}
}
// Enable all routes
for _, route := range routes {
_, err = headscale.Execute(
[]string{
"headscale",
"routes",
"enable",
"--route",
strconv.Itoa(int(route.GetId())),
})
assertNoErr(t, err)
}
time.Sleep(5 * time.Second)
var enablingRoutes []*v1.Route
err = executeAndUnmarshal(
headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
},
&enablingRoutes,
)
assertNoErr(t, err)
assert.Len(t, enablingRoutes, 1)
// Node 1 has active route
assert.Equal(t, true, enablingRoutes[0].GetAdvertised())
assert.Equal(t, true, enablingRoutes[0].GetEnabled())
assert.Equal(t, true, enablingRoutes[0].GetIsPrimary())
// Verify that the client has routes from the primary machine
srs1, _ := subRouter1.Status()
clientStatus, err := client.Status()
assertNoErr(t, err)
srs1PeerStatus := clientStatus.Peer[srs1.Self.PublicKey]
assertNotNil(t, srs1PeerStatus.PrimaryRoutes)
t.Logf("subnet1 has following routes: %v", srs1PeerStatus.PrimaryRoutes.AsSlice())
assert.Len(t, srs1PeerStatus.PrimaryRoutes.AsSlice(), 1)
assert.Contains(
t,
srs1PeerStatus.PrimaryRoutes.AsSlice(),
netip.MustParsePrefix(expectedRoutes[string(srs1.Self.ID)]),
)
clientNm, err := client.Netmap()
assertNoErr(t, err)
wantClientFilter := []filter.Match{
{
IPProto: views.SliceOf([]ipproto.Proto{
ipproto.TCP, ipproto.UDP, ipproto.ICMPv4, ipproto.ICMPv6,
}),
Srcs: []netip.Prefix{
netip.MustParsePrefix("100.64.0.1/32"),
netip.MustParsePrefix("100.64.0.2/32"),
netip.MustParsePrefix("fd7a:115c:a1e0::1/128"),
netip.MustParsePrefix("fd7a:115c:a1e0::2/128"),
},
Dsts: []filter.NetPortRange{
{
Net: netip.MustParsePrefix("100.64.0.2/32"),
Ports: filter.PortRange{0, 0xffff},
},
{
Net: netip.MustParsePrefix("fd7a:115c:a1e0::2/128"),
Ports: filter.PortRange{0, 0xffff},
},
},
Caps: []filter.CapMatch{},
},
}
if diff := cmp.Diff(wantClientFilter, clientNm.PacketFilter, util.ViewSliceIPProtoComparer, util.PrefixComparer); diff != "" {
t.Errorf("Client (%s) filter, unexpected result (-want +got):\n%s", client.Hostname(), diff)
}
subnetNm, err := subRouter1.Netmap()
assertNoErr(t, err)
wantSubnetFilter := []filter.Match{
{
IPProto: views.SliceOf([]ipproto.Proto{
ipproto.TCP, ipproto.UDP, ipproto.ICMPv4, ipproto.ICMPv6,
}),
Srcs: []netip.Prefix{
netip.MustParsePrefix("100.64.0.1/32"),
netip.MustParsePrefix("100.64.0.2/32"),
netip.MustParsePrefix("fd7a:115c:a1e0::1/128"),
netip.MustParsePrefix("fd7a:115c:a1e0::2/128"),
},
Dsts: []filter.NetPortRange{
{
Net: netip.MustParsePrefix("100.64.0.1/32"),
Ports: filter.PortRange{0, 0xffff},
},
{
Net: netip.MustParsePrefix("fd7a:115c:a1e0::1/128"),
Ports: filter.PortRange{0, 0xffff},
},
},
Caps: []filter.CapMatch{},
},
{
IPProto: views.SliceOf([]ipproto.Proto{
ipproto.TCP, ipproto.UDP, ipproto.ICMPv4, ipproto.ICMPv6,
}),
Srcs: []netip.Prefix{
netip.MustParsePrefix("100.64.0.1/32"),
netip.MustParsePrefix("100.64.0.2/32"),
netip.MustParsePrefix("fd7a:115c:a1e0::1/128"),
netip.MustParsePrefix("fd7a:115c:a1e0::2/128"),
},
Dsts: []filter.NetPortRange{
{
Net: netip.MustParsePrefix("10.33.0.0/16"),
Ports: filter.PortRange{0, 0xffff},
},
},
Caps: []filter.CapMatch{},
},
}
if diff := cmp.Diff(wantSubnetFilter, subnetNm.PacketFilter, util.ViewSliceIPProtoComparer, util.PrefixComparer); diff != "" {
t.Errorf("Subnet (%s) filter, unexpected result (-want +got):\n%s", subRouter1.Hostname(), diff)
}
}