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tailscale/cmd/containerboot/egressservices_test.go
Irbe Krumina 6b97e615d6
cmd/containerboot,kube/ingressservices: proxy VIPService TCP/UDP traffic to cluster Services (#15897) 
cmd/containerboot,kube/ingressservices: proxy VIPService TCP/UDP traffic to cluster Services

This PR is part of the work to implement HA for Kubernetes Operator's
network layer proxy.
Adds logic to containerboot to monitor mounted ingress firewall configuration rules
and update iptables/nftables rules as the config changes.
Also adds new shared types for the ingress configuration.
The implementation is intentionally similar to that for HA for egress proxy.

Updates tailscale/tailscale#15895

Signed-off-by: chaosinthecrd <tom@tmlabs.co.uk>
Signed-off-by: Irbe Krumina <irbe@tailscale.com>
2025-05-19 10:42:03 +01:00

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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
//go:build linux
package main
import (
"context"
"fmt"
"io"
"net/http"
"net/netip"
"reflect"
"strings"
"sync"
"testing"
"tailscale.com/kube/egressservices"
"tailscale.com/kube/kubetypes"
)
func Test_updatesForSvc(t *testing.T) {
tailnetIPv4, tailnetIPv6 := netip.MustParseAddr("100.99.99.99"), netip.MustParseAddr("fd7a:115c:a1e0::701:b62a")
tailnetIPv4_1, tailnetIPv6_1 := netip.MustParseAddr("100.88.88.88"), netip.MustParseAddr("fd7a:115c:a1e0::4101:512f")
ports := map[egressservices.PortMap]struct{}{{Protocol: "tcp", MatchPort: 4003, TargetPort: 80}: {}}
ports1 := map[egressservices.PortMap]struct{}{{Protocol: "udp", MatchPort: 4004, TargetPort: 53}: {}}
ports2 := map[egressservices.PortMap]struct{}{{Protocol: "tcp", MatchPort: 4003, TargetPort: 80}: {},
{Protocol: "tcp", MatchPort: 4005, TargetPort: 443}: {}}
fqdnSpec := egressservices.Config{
TailnetTarget: egressservices.TailnetTarget{FQDN: "test"},
Ports: ports,
}
fqdnSpec1 := egressservices.Config{
TailnetTarget: egressservices.TailnetTarget{FQDN: "test"},
Ports: ports1,
}
fqdnSpec2 := egressservices.Config{
TailnetTarget: egressservices.TailnetTarget{IP: tailnetIPv4.String()},
Ports: ports,
}
fqdnSpec3 := egressservices.Config{
TailnetTarget: egressservices.TailnetTarget{IP: tailnetIPv4.String()},
Ports: ports2,
}
r := rule{containerPort: 4003, tailnetPort: 80, protocol: "tcp", tailnetIP: tailnetIPv4}
r1 := rule{containerPort: 4003, tailnetPort: 80, protocol: "tcp", tailnetIP: tailnetIPv6}
r2 := rule{tailnetPort: 53, containerPort: 4004, protocol: "udp", tailnetIP: tailnetIPv4}
r3 := rule{tailnetPort: 53, containerPort: 4004, protocol: "udp", tailnetIP: tailnetIPv6}
r4 := rule{containerPort: 4003, tailnetPort: 80, protocol: "tcp", tailnetIP: tailnetIPv4_1}
r5 := rule{containerPort: 4003, tailnetPort: 80, protocol: "tcp", tailnetIP: tailnetIPv6_1}
r6 := rule{containerPort: 4005, tailnetPort: 443, protocol: "tcp", tailnetIP: tailnetIPv4}
tests := []struct {
name string
svcName string
tailnetTargetIPs []netip.Addr
podIP string
spec egressservices.Config
status *egressservices.Status
wantRulesToAdd []rule
wantRulesToDelete []rule
}{
{
name: "add_fqdn_svc_that_does_not_yet_exist",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
spec: fqdnSpec,
status: &egressservices.Status{},
wantRulesToAdd: []rule{r, r1},
wantRulesToDelete: []rule{},
},
{
name: "fqdn_svc_already_exists",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
spec: fqdnSpec,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
TailnetTarget: egressservices.TailnetTarget{FQDN: "test"},
Ports: ports,
}}},
wantRulesToAdd: []rule{},
wantRulesToDelete: []rule{},
},
{
name: "fqdn_svc_already_exists_add_port_remove_port",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
spec: fqdnSpec1,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
TailnetTarget: egressservices.TailnetTarget{FQDN: "test"},
Ports: ports,
}}},
wantRulesToAdd: []rule{r2, r3},
wantRulesToDelete: []rule{r, r1},
},
{
name: "fqdn_svc_already_exists_change_fqdn_backend_ips",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4_1, tailnetIPv6_1},
spec: fqdnSpec,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4, tailnetIPv6},
TailnetTarget: egressservices.TailnetTarget{FQDN: "test"},
Ports: ports,
}}},
wantRulesToAdd: []rule{r4, r5},
wantRulesToDelete: []rule{r, r1},
},
{
name: "add_ip_service",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4},
spec: fqdnSpec2,
status: &egressservices.Status{},
wantRulesToAdd: []rule{r},
wantRulesToDelete: []rule{},
},
{
name: "add_ip_service_already_exists",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4},
spec: fqdnSpec2,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4},
TailnetTarget: egressservices.TailnetTarget{IP: tailnetIPv4.String()},
Ports: ports,
}}},
wantRulesToAdd: []rule{},
wantRulesToDelete: []rule{},
},
{
name: "ip_service_add_port",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4},
spec: fqdnSpec3,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4},
TailnetTarget: egressservices.TailnetTarget{IP: tailnetIPv4.String()},
Ports: ports,
}}},
wantRulesToAdd: []rule{r6},
wantRulesToDelete: []rule{},
},
{
name: "ip_service_delete_port",
svcName: "test",
tailnetTargetIPs: []netip.Addr{tailnetIPv4},
spec: fqdnSpec,
status: &egressservices.Status{
Services: map[string]*egressservices.ServiceStatus{"test": {
TailnetTargetIPs: []netip.Addr{tailnetIPv4},
TailnetTarget: egressservices.TailnetTarget{IP: tailnetIPv4.String()},
Ports: ports2,
}}},
wantRulesToAdd: []rule{},
wantRulesToDelete: []rule{r6},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
gotRulesToAdd, gotRulesToDelete, err := updatesForCfg(tt.svcName, tt.spec, tt.status, tt.tailnetTargetIPs)
if err != nil {
t.Errorf("updatesForSvc() unexpected error %v", err)
return
}
if !reflect.DeepEqual(gotRulesToAdd, tt.wantRulesToAdd) {
t.Errorf("updatesForSvc() got rulesToAdd = \n%v\n want rulesToAdd \n%v", gotRulesToAdd, tt.wantRulesToAdd)
}
if !reflect.DeepEqual(gotRulesToDelete, tt.wantRulesToDelete) {
t.Errorf("updatesForSvc() got rulesToDelete = \n%v\n want rulesToDelete \n%v", gotRulesToDelete, tt.wantRulesToDelete)
}
})
}
}
// A failure of this test will most likely look like a timeout.
func TestWaitTillSafeToShutdown(t *testing.T) {
podIP := "10.0.0.1"
anotherIP := "10.0.0.2"
tests := []struct {
name string
// services is a map of service name to the number of calls to make to the healthcheck endpoint before
// returning a response that does NOT contain this Pod's IP in headers.
services map[string]int
replicas int
healthCheckSet bool
}{
{
name: "no_configs",
},
{
name: "one_service_immediately_safe_to_shutdown",
services: map[string]int{
"svc1": 0,
},
replicas: 2,
healthCheckSet: true,
},
{
name: "multiple_services_immediately_safe_to_shutdown",
services: map[string]int{
"svc1": 0,
"svc2": 0,
"svc3": 0,
},
replicas: 2,
healthCheckSet: true,
},
{
name: "multiple_services_no_healthcheck_endpoints",
services: map[string]int{
"svc1": 0,
"svc2": 0,
"svc3": 0,
},
replicas: 2,
},
{
name: "one_service_eventually_safe_to_shutdown",
services: map[string]int{
"svc1": 3, // After 3 calls to health check endpoint, no longer returns this Pod's IP
},
replicas: 2,
healthCheckSet: true,
},
{
name: "multiple_services_eventually_safe_to_shutdown",
services: map[string]int{
"svc1": 1, // After 1 call to health check endpoint, no longer returns this Pod's IP
"svc2": 3, // After 3 calls to health check endpoint, no longer returns this Pod's IP
"svc3": 5, // After 5 calls to the health check endpoint, no longer returns this Pod's IP
},
replicas: 2,
healthCheckSet: true,
},
{
name: "multiple_services_eventually_safe_to_shutdown_with_higher_replica_count",
services: map[string]int{
"svc1": 7,
"svc2": 10,
},
replicas: 5,
healthCheckSet: true,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
cfgs := &egressservices.Configs{}
switches := make(map[string]int)
for svc, callsToSwitch := range tt.services {
endpoint := fmt.Sprintf("http://%s.local", svc)
if tt.healthCheckSet {
(*cfgs)[svc] = egressservices.Config{
HealthCheckEndpoint: endpoint,
}
}
switches[endpoint] = callsToSwitch
}
ep := &egressProxy{
podIPv4: podIP,
client: &mockHTTPClient{
podIP: podIP,
anotherIP: anotherIP,
switches: switches,
},
}
ep.waitTillSafeToShutdown(context.Background(), cfgs, tt.replicas)
})
}
}
// mockHTTPClient is a client that receives an HTTP call for an egress service endpoint and returns a response with an
// IP address in a 'Pod-IPv4' header. It can be configured to return one IP address for N calls, then switch to another
// IP address to simulate a scenario where an IP is eventually no longer a backend for an endpoint.
// TODO(irbekrm): to test this more thoroughly, we should have the client take into account the number of replicas and
// return as if traffic was round robin load balanced across different Pods.
type mockHTTPClient struct {
// podIP - initial IP address to return, that matches the current proxy's IP address.
podIP string
anotherIP string
// after how many calls to an endpoint, the client should start returning 'anotherIP' instead of 'podIP.
switches map[string]int
mu sync.Mutex // protects the following
// calls tracks the number of calls received.
calls map[string]int
}
func (m *mockHTTPClient) Do(req *http.Request) (*http.Response, error) {
m.mu.Lock()
if m.calls == nil {
m.calls = make(map[string]int)
}
endpoint := req.URL.String()
m.calls[endpoint]++
calls := m.calls[endpoint]
m.mu.Unlock()
resp := &http.Response{
StatusCode: http.StatusOK,
Header: make(http.Header),
Body: io.NopCloser(strings.NewReader("")),
}
if calls <= m.switches[endpoint] {
resp.Header.Set(kubetypes.PodIPv4Header, m.podIP) // Pod is still routable
} else {
resp.Header.Set(kubetypes.PodIPv4Header, m.anotherIP) // Pod is no longer routable
}
return resp, nil
}
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