consul/test-integ/catalogv2/explicit_destinations_test.go

317 lines
8.4 KiB
Go

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package catalogv2
import (
"fmt"
"testing"
pbauth "github.com/hashicorp/consul/proto-public/pbauth/v2beta1"
"github.com/hashicorp/consul/proto-public/pbresource"
libassert "github.com/hashicorp/consul/test/integration/consul-container/libs/assert"
"github.com/hashicorp/consul/test/integration/consul-container/libs/utils"
"github.com/hashicorp/consul/testing/deployer/sprawl/sprawltest"
"github.com/hashicorp/consul/testing/deployer/topology"
"github.com/hashicorp/consul/test-integ/topoutil"
)
// TestBasicL4ExplicitDestinations sets up the following:
//
// - 1 cluster (no peering / no wanfed)
// - 3 servers in that cluster
// - v2 arch is activated
// - for each tenancy, only using v2 constructs:
// - a client with one explicit destination to a single port service
// - a client with multiple explicit destinations to multiple ports of the
// same multiport service
//
// When this test is executed in CE it will only use the default/default
// tenancy.
//
// When this test is executed in Enterprise it will additionally test the same
// things within these tenancies:
//
// - part1/default
// - default/nsa
// - part1/nsa
func TestBasicL4ExplicitDestinations(t *testing.T) {
tenancies := []*pbresource.Tenancy{
{
Partition: "default",
Namespace: "default",
},
}
if utils.IsEnterprise() {
tenancies = append(tenancies, &pbresource.Tenancy{
Partition: "part1",
Namespace: "default",
})
tenancies = append(tenancies, &pbresource.Tenancy{
Partition: "part1",
Namespace: "nsa",
})
tenancies = append(tenancies, &pbresource.Tenancy{
Partition: "default",
Namespace: "nsa",
})
}
cfg := testBasicL4ExplicitDestinationsCreator{
tenancies: tenancies,
}.NewConfig(t)
sp := sprawltest.Launch(t, cfg)
var (
asserter = topoutil.NewAsserter(sp)
topo = sp.Topology()
cluster = topo.Clusters["dc1"]
ships = topo.ComputeRelationships()
)
clientV2 := sp.ResourceServiceClientForCluster(cluster.Name)
t.Log(topology.RenderRelationships(ships))
// Make sure things are in v2.
for _, ten := range tenancies {
for _, name := range []string{
"single-server",
"single-client",
"multi-server",
"multi-client",
} {
libassert.CatalogV2ServiceHasEndpointCount(t, clientV2, name, ten, 1)
}
}
// Check relationships
for _, ship := range ships {
t.Run("relationship: "+ship.String(), func(t *testing.T) {
var (
wrk = ship.Caller
dest = ship.Destination
)
clusterPrefix := clusterPrefixForDestination(dest)
asserter.DestinationEndpointStatus(t, wrk, clusterPrefix+".", "HEALTHY", 1)
asserter.HTTPServiceEchoes(t, wrk, dest.LocalPort, "")
asserter.FortioFetch2FortioName(t, wrk, dest, cluster.Name, dest.ID)
})
}
}
type testBasicL4ExplicitDestinationsCreator struct {
tenancies []*pbresource.Tenancy
}
func (c testBasicL4ExplicitDestinationsCreator) NewConfig(t *testing.T) *topology.Config {
const clusterName = "dc1"
servers := topoutil.NewTopologyServerSet(clusterName+"-server", 3, []string{clusterName, "wan"}, nil)
cluster := &topology.Cluster{
Enterprise: utils.IsEnterprise(),
Name: clusterName,
Nodes: servers,
}
lastNode := 0
nodeName := func() string {
lastNode++
return fmt.Sprintf("%s-box%d", clusterName, lastNode)
}
for _, ten := range c.tenancies {
c.topologyConfigAddNodes(t, cluster, nodeName, ten)
}
return &topology.Config{
Images: utils.TargetImages(),
Networks: []*topology.Network{
{Name: clusterName},
{Name: "wan", Type: "wan"},
},
Clusters: []*topology.Cluster{
cluster,
},
}
}
func (c testBasicL4ExplicitDestinationsCreator) topologyConfigAddNodes(
t *testing.T,
cluster *topology.Cluster,
nodeName func() string,
tenancy *pbresource.Tenancy,
) {
clusterName := cluster.Name
tenancy.PeerName = "local"
newID := func(name string, tenancy *pbresource.Tenancy) topology.ID {
return topology.ID{
Partition: tenancy.Partition,
Namespace: tenancy.Namespace,
Name: name,
}
}
singleportServerNode := &topology.Node{
Kind: topology.NodeKindDataplane,
Version: topology.NodeVersionV2,
Partition: tenancy.Partition,
Name: nodeName(),
Workloads: []*topology.Workload{
topoutil.NewFortioWorkloadWithDefaults(
clusterName,
newID("single-server", tenancy),
topology.NodeVersionV2,
func(wrk *topology.Workload) {
wrk.WorkloadIdentity = "single-server-identity"
},
),
},
}
var singleportDestinations []*topology.Destination
for i, ten := range c.tenancies {
singleportDestinations = append(singleportDestinations, &topology.Destination{
ID: newID("single-server", ten),
PortName: "http",
LocalAddress: "0.0.0.0", // needed for an assertion
LocalPort: 5000 + i,
})
}
singleportClientNode := &topology.Node{
Kind: topology.NodeKindDataplane,
Version: topology.NodeVersionV2,
Partition: tenancy.Partition,
Name: nodeName(),
Workloads: []*topology.Workload{
topoutil.NewFortioWorkloadWithDefaults(
clusterName,
newID("single-client", tenancy),
topology.NodeVersionV2,
func(wrk *topology.Workload) {
delete(wrk.Ports, "grpc") // v2 mode turns this on, so turn it off
delete(wrk.Ports, "http2") // v2 mode turns this on, so turn it off
wrk.WorkloadIdentity = "single-client-identity"
wrk.Destinations = singleportDestinations
},
),
},
}
var sources []*pbauth.Source
for _, ten := range c.tenancies {
sources = append(sources, &pbauth.Source{
IdentityName: "single-client-identity",
Namespace: ten.Namespace,
Partition: ten.Partition,
})
}
singleportTrafficPerms := sprawltest.MustSetResourceData(t, &pbresource.Resource{
Id: &pbresource.ID{
Type: pbauth.TrafficPermissionsType,
Name: "single-server-perms",
Tenancy: tenancy,
},
}, &pbauth.TrafficPermissions{
Destination: &pbauth.Destination{
IdentityName: "single-server-identity",
},
Action: pbauth.Action_ACTION_ALLOW,
Permissions: []*pbauth.Permission{{
Sources: sources,
}},
})
multiportServerNode := &topology.Node{
Kind: topology.NodeKindDataplane,
Version: topology.NodeVersionV2,
Partition: tenancy.Partition,
Name: nodeName(),
Workloads: []*topology.Workload{
topoutil.NewFortioWorkloadWithDefaults(
clusterName,
newID("multi-server", tenancy),
topology.NodeVersionV2,
func(wrk *topology.Workload) {
wrk.WorkloadIdentity = "multi-server-identity"
},
),
},
}
var multiportDestinations []*topology.Destination
for i, ten := range c.tenancies {
multiportDestinations = append(multiportDestinations, &topology.Destination{
ID: newID("multi-server", ten),
PortName: "http",
LocalAddress: "0.0.0.0", // needed for an assertion
LocalPort: 5000 + 2*i,
})
multiportDestinations = append(multiportDestinations, &topology.Destination{
ID: newID("multi-server", ten),
PortName: "http2",
LocalAddress: "0.0.0.0", // needed for an assertion
LocalPort: 5000 + 2*i + 1,
})
}
multiportClientNode := &topology.Node{
Kind: topology.NodeKindDataplane,
Version: topology.NodeVersionV2,
Partition: tenancy.Partition,
Name: nodeName(),
Workloads: []*topology.Workload{
topoutil.NewFortioWorkloadWithDefaults(
clusterName,
newID("multi-client", tenancy),
topology.NodeVersionV2,
func(wrk *topology.Workload) {
wrk.WorkloadIdentity = "multi-client-identity"
wrk.Destinations = multiportDestinations
},
),
},
}
var multiportSources []*pbauth.Source
for _, ten := range c.tenancies {
multiportSources = append(multiportSources, &pbauth.Source{
IdentityName: "multi-client-identity",
Namespace: ten.Namespace,
Partition: ten.Partition,
})
}
multiportTrafficPerms := sprawltest.MustSetResourceData(t, &pbresource.Resource{
Id: &pbresource.ID{
Type: pbauth.TrafficPermissionsType,
Name: "multi-server-perms",
Tenancy: tenancy,
},
}, &pbauth.TrafficPermissions{
Destination: &pbauth.Destination{
IdentityName: "multi-server-identity",
},
Action: pbauth.Action_ACTION_ALLOW,
Permissions: []*pbauth.Permission{{
Sources: multiportSources,
}},
})
cluster.Nodes = append(cluster.Nodes,
singleportClientNode,
singleportServerNode,
multiportClientNode,
multiportServerNode,
)
cluster.InitialResources = append(cluster.InitialResources,
singleportTrafficPerms,
multiportTrafficPerms,
)
}