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consul/internal/catalog/catalogtest/test_integration_v2beta1.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package catalogtest
import (
"embed"
"fmt"
"testing"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul/internal/catalog/internal/controllers/endpoints"
"github.com/hashicorp/consul/internal/catalog/internal/controllers/nodehealth"
"github.com/hashicorp/consul/internal/catalog/internal/controllers/workloadhealth"
"github.com/hashicorp/consul/internal/resource"
rtest "github.com/hashicorp/consul/internal/resource/resourcetest"
pbcatalog "github.com/hashicorp/consul/proto-public/pbcatalog/v2beta1"
"github.com/hashicorp/consul/proto-public/pbresource"
"github.com/hashicorp/consul/proto/private/prototest"
"github.com/hashicorp/consul/sdk/testutil"
"github.com/hashicorp/consul/sdk/testutil/retry"
)
var (
//go:embed integration_test_data
testData embed.FS
)
// RunCatalogV2Beta1IntegrationTest will push up a bunch of catalog related data and then
// verify that all the expected reconciliations happened correctly. This test is
// intended to exercise a large swathe of behavior of the overall catalog package.
// Besides just controller reconciliation behavior, the intent is also to verify
// that integrations with the resource service are also working (i.e. the various
// validation, mutation and ACL hooks get invoked and are working properly)
//
// This test specifically is not doing any sort of lifecycle related tests to ensure
// that modification to values results in re-reconciliation as expected. Instead there
// is another RunCatalogIntegrationTestLifeCycle function that can be used for those
// purposes. The two are distinct so that the data being published and the assertions
// made against the system can be reused in upgrade tests.
func RunCatalogV2Beta1IntegrationTest(t *testing.T, client pbresource.ResourceServiceClient, opts ...rtest.ClientOption) {
t.Helper()
PublishCatalogV2Beta1IntegrationTestData(t, client, opts...)
VerifyCatalogV2Beta1IntegrationTestResults(t, client)
}
// PublishCatalogV2Beta1IntegrationTestData will perform a whole bunch of resource writes
// for Service, ServiceEndpoints, Workload, Node and HealthStatus objects
func PublishCatalogV2Beta1IntegrationTestData(t *testing.T, client pbresource.ResourceServiceClient, opts ...rtest.ClientOption) {
t.Helper()
c := rtest.NewClient(client, opts...)
resources := rtest.ParseResourcesFromFilesystem(t, testData, "integration_test_data/v2beta1")
c.PublishResources(t, resources)
}
func VerifyCatalogV2Beta1IntegrationTestResults(t *testing.T, client pbresource.ResourceServiceClient) {
t.Helper()
c := rtest.NewClient(client)
testutil.RunStep(t, "resources-exist", func(t *testing.T) {
// When this test suite is run against multiple servers with the resource service client
// pointed at a Raft follower, there can be a race between Raft replicating all the data
// to the followers and these verifications running. Instead of wrapping each one of these
// in their own Wait/Retry func the whole set of them is being wrapped.
retry.Run(t, func(r *retry.R) {
c.RequireResourceExists(r, rtest.Resource(pbcatalog.ServiceType, "api").ID())
c.RequireResourceExists(r, rtest.Resource(pbcatalog.ServiceType, "http-api").ID())
c.RequireResourceExists(r, rtest.Resource(pbcatalog.ServiceType, "grpc-api").ID())
c.RequireResourceExists(r, rtest.Resource(pbcatalog.ServiceType, "foo").ID())
for i := 1; i < 5; i++ {
nodeId := rtest.Resource(pbcatalog.NodeType, fmt.Sprintf("node-%d", i)).WithTenancy(resource.DefaultPartitionedTenancy()).ID()
c.RequireResourceExists(r, nodeId)
res := c.RequireResourceExists(r, rtest.Resource(pbcatalog.NodeHealthStatusType, fmt.Sprintf("node-%d-health", i)).ID())
rtest.RequireOwner(r, res, nodeId, true)
}
for i := 1; i < 21; i++ {
workloadId := rtest.Resource(pbcatalog.WorkloadType, fmt.Sprintf("api-%d", i)).WithTenancy(resource.DefaultNamespacedTenancy()).ID()
c.RequireResourceExists(r, workloadId)
res := c.RequireResourceExists(r, rtest.Resource(pbcatalog.HealthStatusType, fmt.Sprintf("api-%d-health", i)).ID())
rtest.RequireOwner(r, res, workloadId, true)
}
},
// Using a 2 second retry because Raft replication really ought to be this fast for our integration
// tests and if the test hardware cannot get 100 logs replicated to all followers in 2 seconds or
// less then we have some serious issues that warrant investigation.
retry.WithRetryer(retry.TwoSeconds()),
)
})
testutil.RunStep(t, "node-health-reconciliation", func(t *testing.T) {
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.NodeType, "node-1").WithTenancy(resource.DefaultPartitionedTenancy()).ID(), nodehealth.StatusKey, nodehealth.ConditionPassing)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.NodeType, "node-2").WithTenancy(resource.DefaultPartitionedTenancy()).ID(), nodehealth.StatusKey, nodehealth.ConditionWarning)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.NodeType, "node-3").WithTenancy(resource.DefaultPartitionedTenancy()).ID(), nodehealth.StatusKey, nodehealth.ConditionCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.NodeType, "node-4").WithTenancy(resource.DefaultPartitionedTenancy()).ID(), nodehealth.StatusKey, nodehealth.ConditionMaintenance)
})
testutil.RunStep(t, "workload-health-reconciliation", func(t *testing.T) {
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-1").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadPassing)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-2").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadWarning)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-3").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-4").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-5").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeWarning)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-6").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadWarning)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-7").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-8").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-9").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-10").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-11").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-12").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-13").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-14").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-15").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-16").ID(), workloadhealth.ControllerID, workloadhealth.ConditionNodeAndWorkloadMaintenance)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-17").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadPassing)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-18").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadWarning)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-19").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadCritical)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.WorkloadType, "api-20").ID(), workloadhealth.ControllerID, workloadhealth.ConditionWorkloadMaintenance)
})
testutil.RunStep(t, "service-reconciliation", func(t *testing.T) {
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.ServiceType, "foo").ID(), endpoints.ControllerID, endpoints.ConditionUnmanaged)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.ServiceType, "api").ID(), endpoints.ControllerID, endpoints.ConditionManaged)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.ServiceType, "http-api").ID(), endpoints.ControllerID, endpoints.ConditionManaged)
c.WaitForStatusCondition(t, rtest.Resource(pbcatalog.ServiceType, "grpc-api").ID(), endpoints.ControllerID, endpoints.ConditionManaged)
})
testutil.RunStep(t, "service-endpoints-generation", func(t *testing.T) {
verifyServiceEndpoints(t, c, rtest.Resource(pbcatalog.ServiceEndpointsType, "foo").ID(), expectedFooServiceEndpoints())
verifyServiceEndpoints(t, c, rtest.Resource(pbcatalog.ServiceEndpointsType, "api").ID(), expectedApiServiceEndpoints(t, c))
verifyServiceEndpoints(t, c, rtest.Resource(pbcatalog.ServiceEndpointsType, "http-api").ID(), expectedHTTPApiServiceEndpoints(t, c))
verifyServiceEndpoints(t, c, rtest.Resource(pbcatalog.ServiceEndpointsType, "grpc-api").ID(), expectedGRPCApiServiceEndpoints(t, c))
})
}
func expectedFooServiceEndpoints() *pbcatalog.ServiceEndpoints {
return &pbcatalog.ServiceEndpoints{
Endpoints: []*pbcatalog.Endpoint{
{
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "198.18.0.1"},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"ext-svc-port": {
Port: 9876,
Protocol: pbcatalog.Protocol_PROTOCOL_HTTP2,
},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
},
},
}
}
func expectedApiServiceEndpoints(t *testing.T, c *rtest.Client) *pbcatalog.ServiceEndpoints {
return &pbcatalog.ServiceEndpoints{
Endpoints: []*pbcatalog.Endpoint{
// api-1
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-1").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.1", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.1", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
Identity: "api",
},
// api-2
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-2").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.2", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.2", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-3
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-3").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.3", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.3", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-4
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-4").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.4", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.4", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-5
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-5").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.5", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.5", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-6
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-6").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.6", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.6", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-7
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-7").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.7", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.7", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-8
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-8").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.8", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.8", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-9
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-9").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.9", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.9", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-10
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-10").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.10", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.10", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-11
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-11").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.11", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.11", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-12
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-12").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.12", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.12", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-13
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-13").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.13", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.13", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-14
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-14").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.14", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.14", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-15
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-15").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.15", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.15", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-16
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-16").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.16", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.16", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-17
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-17").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.17", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.17", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
Identity: "api",
},
// api-18
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-18").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.18", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.18", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-19
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-19").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.19", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.19", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-20
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-20").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.20", Ports: []string{"grpc", "http", "mesh"}},
{Host: "198.18.2.20", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
},
}
}
func expectedHTTPApiServiceEndpoints(t *testing.T, c *rtest.Client) *pbcatalog.ServiceEndpoints {
return &pbcatalog.ServiceEndpoints{
Endpoints: []*pbcatalog.Endpoint{
// api-1
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-1").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.1", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
Identity: "api",
},
// api-10
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-10").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.10", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-11
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-11").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.11", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-12
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-12").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.12", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-13
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-13").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.13", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-14
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-14").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.14", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-15
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-15").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.15", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-16
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-16").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.16", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-17
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-17").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.17", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
Identity: "api",
},
// api-18
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-18").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.18", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-19
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-19").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.19", Ports: []string{"http"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"http": {Port: 8080, Protocol: pbcatalog.Protocol_PROTOCOL_HTTP},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
},
}
}
func expectedGRPCApiServiceEndpoints(t *testing.T, c *rtest.Client) *pbcatalog.ServiceEndpoints {
return &pbcatalog.ServiceEndpoints{
Endpoints: []*pbcatalog.Endpoint{
// api-1
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-1").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.1", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.1", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_PASSING,
Identity: "api",
},
// api-2
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-2").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.2", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.2", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-3
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-3").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.3", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.3", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-4
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-4").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.4", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.4", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-5
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-5").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.5", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.5", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-6
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-6").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.6", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.6", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_WARNING,
Identity: "api",
},
// api-7
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-7").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.7", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.7", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-8
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-8").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.8", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.8", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
// api-9
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-9").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.9", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.9", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_CRITICAL,
Identity: "api",
},
// api-20
{
TargetRef: c.ResolveResourceID(t, rtest.Resource(pbcatalog.WorkloadType, "api-20").ID()),
Addresses: []*pbcatalog.WorkloadAddress{
{Host: "172.16.1.20", Ports: []string{"grpc", "mesh"}},
{Host: "198.18.2.20", External: true, Ports: []string{"mesh"}},
},
Ports: map[string]*pbcatalog.WorkloadPort{
"grpc": {Port: 9090, Protocol: pbcatalog.Protocol_PROTOCOL_GRPC},
"mesh": {Port: 10000, Protocol: pbcatalog.Protocol_PROTOCOL_MESH},
},
HealthStatus: pbcatalog.Health_HEALTH_MAINTENANCE,
Identity: "api",
},
},
}
}
func verifyServiceEndpoints(t *testing.T, c *rtest.Client, id *pbresource.ID, expected *pbcatalog.ServiceEndpoints) {
t.Helper()
c.WaitForResourceState(t, id, func(t rtest.T, res *pbresource.Resource) {
var actual pbcatalog.ServiceEndpoints
err := res.Data.UnmarshalTo(&actual)
require.NoError(t, err)
prototest.AssertElementsMatch(t, expected.Endpoints, actual.Endpoints)
})
}
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