212 lines
6.7 KiB
Go
212 lines
6.7 KiB
Go
package topology
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import (
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"context"
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"fmt"
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"testing"
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"github.com/stretchr/testify/require"
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"github.com/hashicorp/consul/api"
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libassert "github.com/hashicorp/consul/test/integration/consul-container/libs/assert"
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libcluster "github.com/hashicorp/consul/test/integration/consul-container/libs/cluster"
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libservice "github.com/hashicorp/consul/test/integration/consul-container/libs/service"
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"github.com/hashicorp/consul/test/integration/consul-container/libs/utils"
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)
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const (
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AcceptingPeerName = "accepting-to-dialer"
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DialingPeerName = "dialing-to-acceptor"
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)
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type BuiltCluster struct {
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Cluster *libcluster.Cluster
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Context *libcluster.BuildContext
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Service libservice.Service
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Container *libservice.ConnectContainer
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}
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// BasicPeeringTwoClustersSetup sets up a scenario for testing peering, which consists of
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//
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// - an accepting cluster with 3 servers and 1 client agent. The client should be used to
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// host a service for export: staticServerSvc.
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// - an dialing cluster with 1 server and 1 client. The client should be used to host a
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// service connecting to staticServerSvc.
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// - Create the peering, export the service from accepting cluster, and verify service
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// connectivity.
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//
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// It returns objects of the accepting cluster, dialing cluster, staticServerSvc, and staticClientSvcSidecar
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func BasicPeeringTwoClustersSetup(
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t *testing.T,
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consulVersion string,
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) (*BuiltCluster, *BuiltCluster) {
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acceptingCluster, acceptingCtx, acceptingClient := NewPeeringCluster(t, "dc1", 3, consulVersion)
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dialingCluster, dialingCtx, dialingClient := NewPeeringCluster(t, "dc2", 1, consulVersion)
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require.NoError(t, dialingCluster.PeerWithCluster(acceptingClient, AcceptingPeerName, DialingPeerName))
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libassert.PeeringStatus(t, acceptingClient, AcceptingPeerName, api.PeeringStateActive)
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// libassert.PeeringExports(t, acceptingClient, acceptingPeerName, 1)
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// Register an static-server service in acceptingCluster and export to dialing cluster
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var serverSidecarService libservice.Service
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{
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clientNode := acceptingCluster.Clients()[0]
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// Create a service and proxy instance
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var err error
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serverSidecarService, _, err := libservice.CreateAndRegisterStaticServerAndSidecar(clientNode)
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require.NoError(t, err)
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libassert.CatalogServiceExists(t, acceptingClient, "static-server")
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libassert.CatalogServiceExists(t, acceptingClient, "static-server-sidecar-proxy")
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require.NoError(t, serverSidecarService.Export("default", AcceptingPeerName, acceptingClient))
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}
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// Register an static-client service in dialing cluster and set upstream to static-server service
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var clientSidecarService *libservice.ConnectContainer
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{
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clientNode := dialingCluster.Clients()[0]
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// Create a service and proxy instance
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var err error
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clientSidecarService, err = libservice.CreateAndRegisterStaticClientSidecar(clientNode, DialingPeerName, true)
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require.NoError(t, err)
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libassert.CatalogServiceExists(t, dialingClient, "static-client-sidecar-proxy")
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}
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_, port := clientSidecarService.GetAddr()
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libassert.HTTPServiceEchoes(t, "localhost", port, "")
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return &BuiltCluster{
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Cluster: acceptingCluster,
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Context: acceptingCtx,
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Service: serverSidecarService,
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Container: nil,
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},
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&BuiltCluster{
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Cluster: dialingCluster,
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Context: dialingCtx,
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Service: nil,
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Container: clientSidecarService,
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}
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}
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// NewDialingCluster creates a cluster for peering with a single dev agent
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// TODO: note: formerly called CreatingPeeringClusterAndSetup
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//
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// Deprecated: use NewPeeringCluster mostly
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func NewDialingCluster(
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t *testing.T,
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version string,
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dialingPeerName string,
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) (*libcluster.Cluster, *api.Client, libservice.Service) {
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t.Helper()
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t.Logf("creating the dialing cluster")
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opts := libcluster.BuildOptions{
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Datacenter: "dc2",
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InjectAutoEncryption: true,
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InjectGossipEncryption: true,
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AllowHTTPAnyway: true,
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ConsulVersion: version,
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}
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ctx := libcluster.NewBuildContext(t, opts)
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conf := libcluster.NewConfigBuilder(ctx).
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Peering(true).
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ToAgentConfig(t)
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t.Logf("dc2 server config: \n%s", conf.JSON)
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cluster, err := libcluster.NewN(t, *conf, 1)
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require.NoError(t, err)
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node := cluster.Agents[0]
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client := node.GetClient()
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libcluster.WaitForLeader(t, cluster, client)
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libcluster.WaitForMembers(t, client, 1)
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// Default Proxy Settings
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ok, err := utils.ApplyDefaultProxySettings(client)
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require.NoError(t, err)
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require.True(t, ok)
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// Create the mesh gateway for dataplane traffic
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_, err = libservice.NewGatewayService(context.Background(), "mesh", "mesh", node)
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require.NoError(t, err)
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// Create a service and proxy instance
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clientProxyService, err := libservice.CreateAndRegisterStaticClientSidecar(node, dialingPeerName, true)
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require.NoError(t, err)
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libassert.CatalogServiceExists(t, client, "static-client-sidecar-proxy")
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return cluster, client, clientProxyService
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}
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// NewPeeringCluster creates a cluster with peering enabled. It also creates
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// and registers a mesh-gateway at the client agent. The API client returned is
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// pointed at the client agent.
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func NewPeeringCluster(
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t *testing.T,
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datacenter string,
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numServers int,
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version string,
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) (*libcluster.Cluster, *libcluster.BuildContext, *api.Client) {
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require.NotEmpty(t, datacenter)
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require.True(t, numServers > 0)
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opts := libcluster.BuildOptions{
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Datacenter: datacenter,
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InjectAutoEncryption: true,
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InjectGossipEncryption: true,
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AllowHTTPAnyway: true,
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ConsulVersion: version,
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}
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ctx := libcluster.NewBuildContext(t, opts)
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serverConf := libcluster.NewConfigBuilder(ctx).
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Bootstrap(numServers).
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Peering(true).
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ToAgentConfig(t)
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t.Logf("%s server config: \n%s", datacenter, serverConf.JSON)
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cluster, err := libcluster.NewN(t, *serverConf, numServers)
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require.NoError(t, err)
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var retryJoin []string
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for i := 0; i < numServers; i++ {
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retryJoin = append(retryJoin, fmt.Sprintf("agent-%d", i))
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}
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// Add a stable client to register the service
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clientConf := libcluster.NewConfigBuilder(ctx).
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Client().
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Peering(true).
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RetryJoin(retryJoin...).
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ToAgentConfig(t)
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t.Logf("%s server config: \n%s", datacenter, clientConf.JSON)
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require.NoError(t, cluster.AddN(*clientConf, 1, true))
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// Use the client agent as the HTTP endpoint since we will not rotate it in many tests.
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clientNode := cluster.Agents[numServers]
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client := clientNode.GetClient()
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libcluster.WaitForLeader(t, cluster, client)
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libcluster.WaitForMembers(t, client, numServers+1)
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// Default Proxy Settings
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ok, err := utils.ApplyDefaultProxySettings(client)
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require.NoError(t, err)
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require.True(t, ok)
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// Create the mesh gateway for dataplane traffic
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_, err = libservice.NewGatewayService(context.Background(), "mesh", "mesh", clientNode)
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require.NoError(t, err)
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return cluster, ctx, client
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}
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