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consul/test-integ/peering_commontopo/commontopo.go

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[COMPLIANCE] License changes (#18443) * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Updating the license from MPL to Business Source License Going forward, this project will be licensed under the Business Source License v1.1. Please see our blog post for more details at <Blog URL>, FAQ at www.hashicorp.com/licensing-faq, and details of the license at www.hashicorp.com/bsl. * add missing license headers * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 --------- Co-authored-by: hashicorp-copywrite[bot] <110428419+hashicorp-copywrite[bot]@users.noreply.github.com>
1 year ago
// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package peering
import (
"bytes"
"context"
"fmt"
"strconv"
"testing"
"text/tabwriter"
"time"
"github.com/hashicorp/consul/testing/deployer/sprawl"
"github.com/hashicorp/consul/testing/deployer/sprawl/sprawltest"
"github.com/hashicorp/consul/testing/deployer/topology"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul/api"
"github.com/hashicorp/consul/sdk/testutil/retry"
"github.com/hashicorp/consul/test/integration/consul-container/libs/utils"
)
// commonTopo helps create a shareable topology configured to represent
// the common denominator between tests.
//
// Use NewCommonTopo to create.
//
// Compatible suites should implement sharedTopoSuite.
//
// Style:
// - avoid referencing components using strings, prefer IDs like Service ID, etc.
// - avoid passing addresses and ports, etc. Instead, look up components in sprawl.Topology
// by ID to find a concrete type, then pass that to helper functions that know which port to use
// - minimize the surface area of information passed between setup and test code (via members)
// to those that are strictly necessary
type commonTopo struct {
//
Cfg *topology.Config
// shortcuts to corresponding entry in Cfg
DC1 *topology.Cluster
DC2 *topology.Cluster
DC3 *topology.Cluster
// set after Launch. Should be considered read-only
Sprawl *sprawl.Sprawl
Assert *asserter
// track per-DC services to prevent duplicates
services map[string]map[topology.ServiceID]struct{}
}
func NewCommonTopo(t *testing.T) *commonTopo {
t.Helper()
ct := commonTopo{}
// Make 3-server clusters in dc1 and dc2
// For simplicity, the Name and Datacenter of the clusters are the same.
// dc1 and dc2 should be symmetric.
dc1 := clusterWithJustServers("dc1", 3)
ct.DC1 = dc1
dc2 := clusterWithJustServers("dc2", 3)
ct.DC2 = dc2
// dc3 is a failover cluster for both dc1 and dc2
dc3 := clusterWithJustServers("dc3", 1)
// dc3 is only used for certain failover scenarios and does not need tenancies
dc3.Partitions = []*topology.Partition{{Name: "default"}}
ct.DC3 = dc3
injectTenancies(dc1)
injectTenancies(dc2)
// dc3 is only used for certain failover scenarios and does not need tenancies
dc3.Partitions = []*topology.Partition{{Name: "default"}}
ct.services = map[string]map[topology.ServiceID]struct{}{}
for _, dc := range []*topology.Cluster{dc1, dc2, dc3} {
ct.services[dc.Datacenter] = map[topology.ServiceID]struct{}{}
}
peerings := addPeerings(dc1, dc2)
peerings = append(peerings, addPeerings(dc1, dc3)...)
peerings = append(peerings, addPeerings(dc2, dc3)...)
addMeshGateways(dc1, topology.NodeKindClient)
addMeshGateways(dc2, topology.NodeKindClient)
addMeshGateways(dc3, topology.NodeKindClient)
// TODO: consul-topology doesn't support this yet
// addMeshGateways(dc2, topology.NodeKindDataplane)
setupGlobals(dc1)
setupGlobals(dc2)
setupGlobals(dc3)
// Build final configuration
ct.Cfg = &topology.Config{
Images: utils.TargetImages(),
Networks: []*topology.Network{
{Name: dc1.Datacenter}, // "dc1" LAN
{Name: dc2.Datacenter}, // "dc2" LAN
{Name: dc3.Datacenter}, // "dc3" LAN
{Name: "wan", Type: "wan"},
},
Clusters: []*topology.Cluster{
dc1,
dc2,
dc3,
},
Peerings: peerings,
}
return &ct
}
// calls sprawltest.Launch followed by s.postLaunchChecks
func (ct *commonTopo) Launch(t *testing.T) {
if ct.Sprawl != nil {
t.Fatalf("Launch must only be called once")
}
ct.Sprawl = sprawltest.Launch(t, ct.Cfg)
ct.Assert = newAsserter(ct.Sprawl)
ct.postLaunchChecks(t)
}
// tests that use Relaunch might want to call this again afterwards
func (ct *commonTopo) postLaunchChecks(t *testing.T) {
t.Logf("TESTING RELATIONSHIPS: \n%s",
renderRelationships(computeRelationships(ct.Sprawl.Topology())),
)
// check that exports line up as expected
for _, clu := range ct.Sprawl.Config().Clusters {
// expected exports per peer
type key struct {
peer string
partition string
namespace string
}
eepp := map[key]int{}
for _, e := range clu.InitialConfigEntries {
if e.GetKind() == api.ExportedServices {
asExport := e.(*api.ExportedServicesConfigEntry)
// do we care about the partition?
for _, svc := range asExport.Services {
for _, con := range svc.Consumers {
// do we care about con.Partition?
// TODO: surely there is code to normalize this
partition := asExport.Partition
if partition == "" {
partition = "default"
}
namespace := svc.Namespace
if namespace == "" {
namespace = "default"
}
eepp[key{peer: con.Peer, partition: partition, namespace: namespace}] += 1
}
}
}
}
cl := ct.APIClientForCluster(t, clu)
// TODO: these could probably be done in parallel
for k, v := range eepp {
retry.RunWith(&retry.Timer{Timeout: 30 * time.Second, Wait: 500 * time.Millisecond}, t, func(r *retry.R) {
peering, _, err := cl.Peerings().Read(context.Background(), k.peer, utils.CompatQueryOpts(&api.QueryOptions{
Partition: k.partition,
Namespace: k.namespace,
}))
require.Nil(r, err, "reading peering data")
require.NotNilf(r, peering, "peering not found %q", k.peer)
assert.Len(r, peering.StreamStatus.ExportedServices, v, "peering exported services")
})
}
}
if t.Failed() {
t.Fatal("failing fast: post-Launch assertions failed")
}
}
// PeerName is how you'd address a remote dc+partition locally
// as your peer name.
func LocalPeerName(clu *topology.Cluster, partition string) string {
return fmt.Sprintf("peer-%s-%s", clu.Datacenter, partition)
}
// TODO: move these to topology
// TODO: alternatively, delete it: we only use it in one place, to bundle up args
type serviceExt struct {
*topology.Service
// default NodeKindClient
NodeKind topology.NodeKind
Exports []api.ServiceConsumer
Config *api.ServiceConfigEntry
Intentions *api.ServiceIntentionsConfigEntry
}
func (ct *commonTopo) AddServiceNode(clu *topology.Cluster, svc serviceExt) *topology.Node {
clusterName := clu.Name
if _, ok := ct.services[clusterName][svc.ID]; ok {
panic(fmt.Sprintf("duplicate service %q in cluster %q", svc.ID, clusterName))
}
ct.services[clusterName][svc.ID] = struct{}{}
// TODO: inline
serviceHostnameString := func(dc string, id topology.ServiceID) string {
n := id.Name
// prepend <namespace>- and <partition>- if they are not default/empty
// avoids hostname limit of 63 chars in most cases
// TODO: this obviously isn't scalable
if id.Namespace != "default" && id.Namespace != "" {
n = id.Namespace + "-" + n
}
if id.Partition != "default" && id.Partition != "" {
n = id.Partition + "-" + n
}
n = dc + "-" + n
// TODO: experimentally, when this is larger than 63, docker can't start
// the host. confirmed by internet rumor https://gitlab.com/gitlab-org/gitlab-runner/-/issues/27763
if len(n) > 63 {
panic(fmt.Sprintf("docker hostname must not be longer than 63 chars: %q", n))
}
return n
}
node := &topology.Node{
Kind: topology.NodeKindClient,
Name: serviceHostnameString(clu.Datacenter, svc.ID),
Partition: svc.ID.Partition,
Addresses: []*topology.Address{
{Network: clu.Datacenter},
},
Services: []*topology.Service{
svc.Service,
},
Cluster: clusterName,
}
if svc.NodeKind != "" {
node.Kind = svc.NodeKind
}
clu.Nodes = append(clu.Nodes, node)
// Export if necessary
if len(svc.Exports) > 0 {
ct.ExportService(clu, svc.ID.Partition, api.ExportedService{
Name: svc.ID.Name,
Namespace: svc.ID.Namespace,
Consumers: svc.Exports,
})
}
// Add any config entries
if svc.Config != nil {
clu.InitialConfigEntries = append(clu.InitialConfigEntries, svc.Config)
}
if svc.Intentions != nil {
clu.InitialConfigEntries = append(clu.InitialConfigEntries, svc.Intentions)
}
return node
}
func (ct *commonTopo) APIClientForCluster(t *testing.T, clu *topology.Cluster) *api.Client {
cl, err := ct.Sprawl.APIClientForNode(clu.Name, clu.FirstClient().ID(), "")
require.NoError(t, err)
return cl
}
// ExportService looks for an existing ExportedServicesConfigEntry for the given partition
// and inserts svcs. If none is found, it inserts a new ExportedServicesConfigEntry.
func (ct *commonTopo) ExportService(clu *topology.Cluster, partition string, svcs ...api.ExportedService) {
var found bool
for _, ce := range clu.InitialConfigEntries {
// We check Name because it must be "default" in OSS whereas Partition will be "".
if ce.GetKind() == api.ExportedServices && ce.GetName() == partition {
found = true
e := ce.(*api.ExportedServicesConfigEntry)
e.Services = append(e.Services, svcs...)
}
}
if !found {
clu.InitialConfigEntries = append(clu.InitialConfigEntries,
&api.ExportedServicesConfigEntry{
Name: partition, // this NEEDs to be "default" in OSS
Partition: ConfigEntryPartition(partition),
Services: svcs,
},
)
}
}
func (ct *commonTopo) ClusterByDatacenter(t *testing.T, name string) *topology.Cluster {
t.Helper()
for _, clu := range ct.Cfg.Clusters {
if clu.Datacenter == name {
return clu
}
}
t.Fatalf("cluster %q not found", name)
return nil
}
// Since OSS config entries do not contain the partition field,
// this func converts default partition to empty string.
func ConfigEntryPartition(p string) string {
if p == "default" {
return "" // make this OSS friendly
}
return p
}
// disableNode is a no-op if the node is already disabled.
func DisableNode(t *testing.T, cfg *topology.Config, clusterName string, nid topology.NodeID) *topology.Config {
nodes := cfg.Cluster(clusterName).Nodes
var found bool
for _, n := range nodes {
if n.ID() == nid {
found = true
if n.Disabled {
return cfg
}
t.Logf("disabling node %s in cluster %s", nid.String(), clusterName)
n.Disabled = true
break
}
}
require.True(t, found, "expected to find nodeID %q in cluster %q", nid.String(), clusterName)
return cfg
}
// enableNode is a no-op if the node is already enabled.
func EnableNode(t *testing.T, cfg *topology.Config, clusterName string, nid topology.NodeID) *topology.Config {
nodes := cfg.Cluster(clusterName).Nodes
var found bool
for _, n := range nodes {
if n.ID() == nid {
found = true
if !n.Disabled {
return cfg
}
t.Logf("enabling node %s in cluster %s", nid.String(), clusterName)
n.Disabled = false
break
}
}
require.True(t, found, "expected to find nodeID %q in cluster %q", nid.String(), clusterName)
return cfg
}
func setupGlobals(clu *topology.Cluster) {
for _, part := range clu.Partitions {
clu.InitialConfigEntries = append(clu.InitialConfigEntries,
&api.ProxyConfigEntry{
Name: api.ProxyConfigGlobal,
Kind: api.ProxyDefaults,
Partition: ConfigEntryPartition(part.Name),
MeshGateway: api.MeshGatewayConfig{
// Although we define service-defaults for most upstreams in
// this test suite, failover tests require a global mode
// because the default for peered targets is MeshGatewayModeRemote.
Mode: api.MeshGatewayModeLocal,
},
},
)
}
}
// addMeshGateways adds a mesh gateway for every partition in the cluster.
// Assumes that the LAN network name is equal to datacenter name.
func addMeshGateways(c *topology.Cluster, kind topology.NodeKind) {
for _, p := range c.Partitions {
c.Nodes = topology.MergeSlices(c.Nodes, newTopologyMeshGatewaySet(
kind,
p.Name,
fmt.Sprintf("%s-%s-mgw", c.Name, p.Name),
1,
[]string{c.Datacenter, "wan"},
nil,
))
}
}
func clusterWithJustServers(name string, numServers int) *topology.Cluster {
return &topology.Cluster{
Enterprise: utils.IsEnterprise(),
Name: name,
Datacenter: name,
Nodes: newTopologyServerSet(
name+"-server",
numServers,
[]string{name, "wan"},
nil,
),
}
}
func addPeerings(acc *topology.Cluster, dial *topology.Cluster) []*topology.Peering {
peerings := []*topology.Peering{}
for _, accPart := range acc.Partitions {
for _, dialPart := range dial.Partitions {
peerings = append(peerings, &topology.Peering{
Accepting: topology.PeerCluster{
Name: acc.Datacenter,
Partition: accPart.Name,
PeerName: LocalPeerName(dial, dialPart.Name),
},
Dialing: topology.PeerCluster{
Name: dial.Datacenter,
Partition: dialPart.Name,
PeerName: LocalPeerName(acc, accPart.Name),
},
})
}
}
return peerings
}
func injectTenancies(clu *topology.Cluster) {
if !utils.IsEnterprise() {
clu.Partitions = []*topology.Partition{
{
Name: "default",
Namespaces: []string{
"default",
},
},
}
return
}
for _, part := range []string{"default", "part1"} {
clu.Partitions = append(clu.Partitions,
&topology.Partition{
Name: part,
Namespaces: []string{
"default",
"ns1",
},
},
)
}
}
func newTopologyServerSet(
namePrefix string,
num int,
networks []string,
mutateFn func(i int, node *topology.Node),
) []*topology.Node {
var out []*topology.Node
for i := 1; i <= num; i++ {
name := namePrefix + strconv.Itoa(i)
node := &topology.Node{
Kind: topology.NodeKindServer,
Name: name,
}
for _, net := range networks {
node.Addresses = append(node.Addresses, &topology.Address{Network: net})
}
if mutateFn != nil {
mutateFn(i, node)
}
out = append(out, node)
}
return out
}
func newTopologyMeshGatewaySet(
nodeKind topology.NodeKind,
partition string,
namePrefix string,
num int,
networks []string,
mutateFn func(i int, node *topology.Node),
) []*topology.Node {
var out []*topology.Node
for i := 1; i <= num; i++ {
name := namePrefix + strconv.Itoa(i)
node := &topology.Node{
Kind: nodeKind,
Partition: partition,
Name: name,
Services: []*topology.Service{{
ID: topology.ServiceID{Name: "mesh-gateway"},
Port: 8443,
EnvoyAdminPort: 19000,
IsMeshGateway: true,
}},
}
for _, net := range networks {
node.Addresses = append(node.Addresses, &topology.Address{Network: net})
}
if mutateFn != nil {
mutateFn(i, node)
}
out = append(out, node)
}
return out
}
const HashicorpDockerProxy = "docker.mirror.hashicorp.services"
func NewFortioServiceWithDefaults(
cluster string,
sid topology.ServiceID,
mut func(s *topology.Service),
) *topology.Service {
const (
httpPort = 8080
grpcPort = 8079
adminPort = 19000
)
sid.Normalize()
svc := &topology.Service{
ID: sid,
Image: HashicorpDockerProxy + "/fortio/fortio",
Port: httpPort,
EnvoyAdminPort: adminPort,
CheckTCP: "127.0.0.1:" + strconv.Itoa(httpPort),
Env: []string{
"FORTIO_NAME=" + cluster + "::" + sid.String(),
},
Command: []string{
"server",
"-http-port", strconv.Itoa(httpPort),
"-grpc-port", strconv.Itoa(grpcPort),
"-redirect-port", "-disabled",
},
}
if mut != nil {
mut(svc)
}
return svc
}
// computeRelationships will analyze a full topology and generate all of the
// downstream/upstream information for all of them.
func computeRelationships(topo *topology.Topology) []Relationship {
var out []Relationship
for _, cluster := range topo.Clusters {
for _, n := range cluster.Nodes {
for _, s := range n.Services {
for _, u := range s.Upstreams {
out = append(out, Relationship{
Caller: s,
Upstream: u,
})
}
}
}
}
return out
}
// renderRelationships will take the output of ComputeRelationships and display
// it in tabular form.
func renderRelationships(ships []Relationship) string {
var buf bytes.Buffer
w := tabwriter.NewWriter(&buf, 0, 0, 3, ' ', tabwriter.Debug)
fmt.Fprintf(w, "DOWN\tnode\tservice\tport\tUP\tservice\t\n")
for _, r := range ships {
fmt.Fprintf(w,
"%s\t%s\t%s\t%d\t%s\t%s\t\n",
r.downCluster(),
r.Caller.Node.ID().String(),
r.Caller.ID.String(),
r.Upstream.LocalPort,
r.upCluster(),
r.Upstream.ID.String(),
)
}
fmt.Fprintf(w, "\t\t\t\t\t\t\n")
w.Flush()
return buf.String()
}
type Relationship struct {
Caller *topology.Service
Upstream *topology.Upstream
}
func (r Relationship) String() string {
return fmt.Sprintf(
"%s on %s in %s via :%d => %s in %s",
r.Caller.ID.String(),
r.Caller.Node.ID().String(),
r.downCluster(),
r.Upstream.LocalPort,
r.Upstream.ID.String(),
r.upCluster(),
)
}
func (r Relationship) downCluster() string {
return r.Caller.Node.Cluster
}
func (r Relationship) upCluster() string {
return r.Upstream.Cluster
}