consul/internal/catalog/catalogtest/test_integration_v2beta1.go

753 lines
33 KiB
Go
Raw Normal View History

[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>
2023-08-11 13:12:13 +00:00
// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package catalogtest
import (
"embed"
"fmt"
"testing"
Prefix sidecar proxy test files with source and destination. (#18620) * mesh-controller: handle L4 protocols for a proxy without upstreams * sidecar-controller: Support explicit destinations for L4 protocols and single ports. * This controller generates and saves ProxyStateTemplate for sidecar proxies. * It currently supports single-port L4 ports only. * It keeps a cache of all destinations to make it easier to compute and retrieve destinations. * It will update the status of the pbmesh.Upstreams resource if anything is invalid. * endpoints-controller: add workload identity to the service endpoints resource * small fixes * review comments * Address PR comments * sidecar-proxy controller: Add support for transparent proxy This currently does not support inferring destinations from intentions. * PR review comments * mesh-controller: handle L4 protocols for a proxy without upstreams * sidecar-controller: Support explicit destinations for L4 protocols and single ports. * This controller generates and saves ProxyStateTemplate for sidecar proxies. * It currently supports single-port L4 ports only. * It keeps a cache of all destinations to make it easier to compute and retrieve destinations. * It will update the status of the pbmesh.Upstreams resource if anything is invalid. * endpoints-controller: add workload identity to the service endpoints resource * small fixes * review comments * Make sure endpoint refs route to mesh port instead of an app port * Address PR comments * fixing copyright * tidy imports * sidecar-proxy controller: Add support for transparent proxy This currently does not support inferring destinations from intentions. * tidy imports * add copyright headers * Prefix sidecar proxy test files with source and destination. * Update controller_test.go --------- Co-authored-by: Iryna Shustava <iryna@hashicorp.com> Co-authored-by: R.B. Boyer <rb@hashicorp.com> Co-authored-by: github-team-consul-core <github-team-consul-core@hashicorp.com>
2023-09-08 23:28:55 +00:00
"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"
)
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) {
c.RequireResourceExists(t, rtest.Resource(pbcatalog.ServiceType, "api").ID())
c.RequireResourceExists(t, rtest.Resource(pbcatalog.ServiceType, "http-api").ID())
c.RequireResourceExists(t, rtest.Resource(pbcatalog.ServiceType, "grpc-api").ID())
c.RequireResourceExists(t, 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(t, nodeId)
2023-12-02 05:44:03 +00:00
res := c.RequireResourceExists(t, rtest.Resource(pbcatalog.NodeHealthStatusType, fmt.Sprintf("node-%d-health", i)).ID())
rtest.RequireOwner(t, 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(t, workloadId)
res := c.RequireResourceExists(t, rtest.Resource(pbcatalog.HealthStatusType, fmt.Sprintf("api-%d-health", i)).ID())
rtest.RequireOwner(t, res, workloadId, true)
}
})
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{
"external-service-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)
})
}