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open-consul/agent/proxycfg/testing.go

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package proxycfg
import (
"context"
"fmt"
"io/ioutil"
"path"
"path/filepath"
"runtime"
"sync"
"sync/atomic"
"time"
"github.com/hashicorp/go-hclog"
"github.com/mitchellh/go-testing-interface"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul/agent/cache"
cachetype "github.com/hashicorp/consul/agent/cache-types"
"github.com/hashicorp/consul/agent/connect"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/api"
)
// TestCacheTypes encapsulates all the different cache types proxycfg.State will
// watch/request for controlling one during testing.
type TestCacheTypes struct {
roots *ControllableCacheType
leaf *ControllableCacheType
intentions *ControllableCacheType
health *ControllableCacheType
query *ControllableCacheType
compiledChain *ControllableCacheType
serviceHTTPChecks *ControllableCacheType
configEntry *ControllableCacheType
}
// NewTestCacheTypes creates a set of ControllableCacheTypes for all types that
// proxycfg will watch suitable for testing a proxycfg.State or Manager.
func NewTestCacheTypes(t testing.T) *TestCacheTypes {
t.Helper()
ct := &TestCacheTypes{
roots: NewControllableCacheType(t),
leaf: NewControllableCacheType(t),
intentions: NewControllableCacheType(t),
health: NewControllableCacheType(t),
query: NewControllableCacheType(t),
compiledChain: NewControllableCacheType(t),
serviceHTTPChecks: NewControllableCacheType(t),
configEntry: NewControllableCacheType(t),
}
ct.query.blocking = false
return ct
}
// TestCacheWithTypes registers ControllableCacheTypes for all types that
// proxycfg will watch suitable for testing a proxycfg.State or Manager.
func TestCacheWithTypes(t testing.T, types *TestCacheTypes) *cache.Cache {
c := cache.New(cache.Options{})
c.RegisterType(cachetype.ConnectCARootName, types.roots)
c.RegisterType(cachetype.ConnectCALeafName, types.leaf)
c.RegisterType(cachetype.IntentionMatchName, types.intentions)
c.RegisterType(cachetype.HealthServicesName, types.health)
c.RegisterType(cachetype.PreparedQueryName, types.query)
c.RegisterType(cachetype.CompiledDiscoveryChainName, types.compiledChain)
c.RegisterType(cachetype.ServiceHTTPChecksName, types.serviceHTTPChecks)
c.RegisterType(cachetype.ConfigEntryName, types.configEntry)
return c
}
// TestCerts generates a CA and Leaf suitable for returning as mock CA
// root/leaf cache requests.
func TestCerts(t testing.T) (*structs.IndexedCARoots, *structs.IssuedCert) {
t.Helper()
ca := connect.TestCA(t, nil)
roots := &structs.IndexedCARoots{
ActiveRootID: ca.ID,
TrustDomain: fmt.Sprintf("%s.consul", connect.TestClusterID),
Roots: []*structs.CARoot{ca},
}
return roots, TestLeafForCA(t, ca)
}
// TestLeafForCA generates new Leaf suitable for returning as mock CA
// leaf cache response, signed by an existing CA.
func TestLeafForCA(t testing.T, ca *structs.CARoot) *structs.IssuedCert {
leafPEM, pkPEM := connect.TestLeaf(t, "web", ca)
leafCert, err := connect.ParseCert(leafPEM)
require.NoError(t, err)
return &structs.IssuedCert{
SerialNumber: connect.EncodeSerialNumber(leafCert.SerialNumber),
CertPEM: leafPEM,
PrivateKeyPEM: pkPEM,
Service: "web",
ServiceURI: leafCert.URIs[0].String(),
ValidAfter: leafCert.NotBefore,
ValidBefore: leafCert.NotAfter,
}
}
// TestIntentions returns a sample intentions match result useful to
// mocking service discovery cache results.
func TestIntentions() *structs.IndexedIntentionMatches {
return &structs.IndexedIntentionMatches{
Matches: []structs.Intentions{
[]*structs.Intention{
{
ID: "foo",
SourceNS: "default",
SourceName: "billing",
DestinationNS: "default",
DestinationName: "web",
Action: structs.IntentionActionAllow,
},
},
},
}
}
// TestUpstreamNodes returns a sample service discovery result useful to
// mocking service discovery cache results.
func TestUpstreamNodes(t testing.T, service string) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test1",
Node: "test1",
Address: "10.10.1.1",
Datacenter: "dc1",
Partition: structs.NodeEnterpriseMetaInDefaultPartition().PartitionOrEmpty(),
},
Service: structs.TestNodeServiceWithName(t, service),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test2",
Node: "test2",
Address: "10.10.1.2",
Datacenter: "dc1",
Partition: structs.NodeEnterpriseMetaInDefaultPartition().PartitionOrEmpty(),
},
Service: structs.TestNodeServiceWithName(t, service),
},
}
}
// TestPreparedQueryNodes returns instances of a service spread across two datacenters.
// The service instance names use a "-target" suffix to ensure we don't use the
// prepared query's name for SAN validation.
// The name of prepared queries won't always match the name of the service they target.
func TestPreparedQueryNodes(t testing.T, query string) structs.CheckServiceNodes {
nodes := structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test1",
Node: "test1",
Address: "10.10.1.1",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: query + "-sidecar-proxy",
Port: 8080,
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: query + "-target",
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test2",
Node: "test2",
Address: "10.20.1.2",
Datacenter: "dc2",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindTypical,
Service: query + "-target",
Port: 8080,
Connect: structs.ServiceConnect{Native: true},
},
},
}
return nodes
}
func TestUpstreamNodesInStatus(t testing.T, status string) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test1",
Node: "test1",
Address: "10.10.1.1",
Datacenter: "dc1",
},
Service: structs.TestNodeService(t),
Checks: structs.HealthChecks{
&structs.HealthCheck{
Node: "test1",
ServiceName: "web",
Name: "force",
Status: status,
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test2",
Node: "test2",
Address: "10.10.1.2",
Datacenter: "dc1",
},
Service: structs.TestNodeService(t),
Checks: structs.HealthChecks{
&structs.HealthCheck{
Node: "test2",
ServiceName: "web",
Name: "force",
Status: status,
},
},
},
}
}
func TestUpstreamNodesDC2(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test1",
Node: "test1",
Address: "10.20.1.1",
Datacenter: "dc2",
},
Service: structs.TestNodeService(t),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test2",
Node: "test2",
Address: "10.20.1.2",
Datacenter: "dc2",
},
Service: structs.TestNodeService(t),
},
}
}
func TestUpstreamNodesInStatusDC2(t testing.T, status string) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test1",
Node: "test1",
Address: "10.20.1.1",
Datacenter: "dc2",
},
Service: structs.TestNodeService(t),
Checks: structs.HealthChecks{
&structs.HealthCheck{
Node: "test1",
ServiceName: "web",
Name: "force",
Status: status,
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "test2",
Node: "test2",
Address: "10.20.1.2",
Datacenter: "dc2",
},
Service: structs.TestNodeService(t),
Checks: structs.HealthChecks{
&structs.HealthCheck{
Node: "test2",
ServiceName: "web",
Name: "force",
Status: status,
},
},
},
}
}
func TestUpstreamNodesAlternate(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "alt-test1",
Node: "alt-test1",
Address: "10.20.1.1",
Datacenter: "dc1",
},
Service: structs.TestNodeService(t),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "alt-test2",
Node: "alt-test2",
Address: "10.20.1.2",
Datacenter: "dc1",
},
Service: structs.TestNodeService(t),
},
}
}
func TestGatewayNodesDC1(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.10.1.1",
Datacenter: "dc1",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.10.1.1", 8443,
structs.ServiceAddress{Address: "10.10.1.1", Port: 8443},
structs.ServiceAddress{Address: "198.118.1.1", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-2",
Node: "mesh-gateway",
Address: "10.10.1.2",
Datacenter: "dc1",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.10.1.2", 8443,
structs.ServiceAddress{Address: "10.0.1.2", Port: 8443},
structs.ServiceAddress{Address: "198.118.1.2", Port: 443}),
},
}
}
func TestGatewayNodesDC2(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.0.1.1",
Datacenter: "dc2",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.0.1.1", 8443,
structs.ServiceAddress{Address: "10.0.1.1", Port: 8443},
structs.ServiceAddress{Address: "198.18.1.1", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-2",
Node: "mesh-gateway",
Address: "10.0.1.2",
Datacenter: "dc2",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.0.1.2", 8443,
structs.ServiceAddress{Address: "10.0.1.2", Port: 8443},
structs.ServiceAddress{Address: "198.18.1.2", Port: 443}),
},
}
}
func TestGatewayNodesDC3(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.30.1.1",
Datacenter: "dc3",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.1", 8443,
structs.ServiceAddress{Address: "10.0.1.1", Port: 8443},
structs.ServiceAddress{Address: "198.38.1.1", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-2",
Node: "mesh-gateway",
Address: "10.30.1.2",
Datacenter: "dc3",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.2", 8443,
structs.ServiceAddress{Address: "10.30.1.2", Port: 8443},
structs.ServiceAddress{Address: "198.38.1.2", Port: 443}),
},
}
}
func TestGatewayNodesDC4Hostname(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.30.1.1",
Datacenter: "dc4",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.1", 8443,
structs.ServiceAddress{Address: "10.0.1.1", Port: 8443},
structs.ServiceAddress{Address: "123.us-west-2.elb.notaws.com", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-2",
Node: "mesh-gateway",
Address: "10.30.1.2",
Datacenter: "dc4",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.2", 8443,
structs.ServiceAddress{Address: "10.30.1.2", Port: 8443},
structs.ServiceAddress{Address: "456.us-west-2.elb.notaws.com", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-3",
Node: "mesh-gateway",
Address: "10.30.1.3",
Datacenter: "dc4",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.3", 8443,
structs.ServiceAddress{Address: "10.30.1.3", Port: 8443},
structs.ServiceAddress{Address: "198.38.1.1", Port: 443}),
},
}
}
func TestGatewayNodesDC5Hostname(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.30.1.1",
Datacenter: "dc5",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.1", 8443,
structs.ServiceAddress{Address: "10.0.1.1", Port: 8443},
structs.ServiceAddress{Address: "123.us-west-2.elb.notaws.com", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-2",
Node: "mesh-gateway",
Address: "10.30.1.2",
Datacenter: "dc5",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.2", 8443,
structs.ServiceAddress{Address: "10.30.1.2", Port: 8443},
structs.ServiceAddress{Address: "456.us-west-2.elb.notaws.com", Port: 443}),
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-3",
Node: "mesh-gateway",
Address: "10.30.1.3",
Datacenter: "dc5",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.3", 8443,
structs.ServiceAddress{Address: "10.30.1.3", Port: 8443},
structs.ServiceAddress{Address: "198.38.1.1", Port: 443}),
},
}
}
func TestGatewayNodesDC6Hostname(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "mesh-gateway-1",
Node: "mesh-gateway",
Address: "10.30.1.1",
Datacenter: "dc6",
},
Service: structs.TestNodeServiceMeshGatewayWithAddrs(t,
"10.30.1.1", 8443,
structs.ServiceAddress{Address: "10.0.1.1", Port: 8443},
structs.ServiceAddress{Address: "123.us-east-1.elb.notaws.com", Port: 443}),
Checks: structs.HealthChecks{
{
Status: api.HealthCritical,
},
},
},
}
}
func TestGatewayServiceGroupBarDC1(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "bar-node-1",
Node: "bar-node-1",
Address: "10.1.1.4",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "bar-sidecar-proxy",
Address: "172.16.1.6",
Port: 2222,
Meta: map[string]string{
"version": "1",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "bar",
Upstreams: structs.TestUpstreams(t),
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "bar-node-2",
Node: "bar-node-2",
Address: "10.1.1.5",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "bar-sidecar-proxy",
Address: "172.16.1.7",
Port: 2222,
Meta: map[string]string{
"version": "1",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "bar",
Upstreams: structs.TestUpstreams(t),
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "bar-node-3",
Node: "bar-node-3",
Address: "10.1.1.6",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "bar-sidecar-proxy",
Address: "172.16.1.8",
Port: 2222,
Meta: map[string]string{
"version": "2",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "bar",
Upstreams: structs.TestUpstreams(t),
},
},
},
}
}
func TestGatewayServiceGroupFooDC1(t testing.T) structs.CheckServiceNodes {
return structs.CheckServiceNodes{
structs.CheckServiceNode{
Node: &structs.Node{
ID: "foo-node-1",
Node: "foo-node-1",
Address: "10.1.1.1",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "foo-sidecar-proxy",
Address: "172.16.1.3",
Port: 2222,
Meta: map[string]string{
"version": "1",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "foo",
Upstreams: structs.TestUpstreams(t),
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "foo-node-2",
Node: "foo-node-2",
Address: "10.1.1.2",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "foo-sidecar-proxy",
Address: "172.16.1.4",
Port: 2222,
Meta: map[string]string{
"version": "1",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "foo",
Upstreams: structs.TestUpstreams(t),
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "foo-node-3",
Node: "foo-node-3",
Address: "10.1.1.3",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "foo-sidecar-proxy",
Address: "172.16.1.5",
Port: 2222,
Meta: map[string]string{
"version": "2",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "foo",
Upstreams: structs.TestUpstreams(t),
},
},
},
structs.CheckServiceNode{
Node: &structs.Node{
ID: "foo-node-4",
Node: "foo-node-4",
Address: "10.1.1.7",
Datacenter: "dc1",
},
Service: &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
Service: "foo-sidecar-proxy",
Address: "172.16.1.9",
Port: 2222,
Meta: map[string]string{
"version": "2",
},
Proxy: structs.ConnectProxyConfig{
DestinationServiceName: "foo",
Upstreams: structs.TestUpstreams(t),
},
},
Checks: structs.HealthChecks{
&structs.HealthCheck{
Node: "foo-node-4",
ServiceName: "foo-sidecar-proxy",
Name: "proxy-alive",
Status: "warning",
},
},
},
}
}
type noopCacheNotifier struct{}
var _ CacheNotifier = (*noopCacheNotifier)(nil)
func (*noopCacheNotifier) Notify(_ context.Context, _ string, _ cache.Request, _ string, _ chan<- cache.UpdateEvent) error {
return nil
}
type noopHealth struct{}
var _ Health = (*noopHealth)(nil)
func (*noopHealth) Notify(_ context.Context, _ structs.ServiceSpecificRequest, _ string, _ chan<- cache.UpdateEvent) error {
return nil
}
// testConfigSnapshotFixture helps you execute normal proxycfg event machinery
// to assemble a ConfigSnapshot via standard means to ensure test data used in
// any tests is actually a valid configuration.
//
// The provided ns argument will be manipulated by the nsFn callback if present
// before it is used.
//
// The events provided in the updates slice will be fed into the event
// machinery.
func testConfigSnapshotFixture(
t testing.T,
ns *structs.NodeService,
nsFn func(ns *structs.NodeService),
serverSNIFn ServerSNIFunc,
updates []cache.UpdateEvent,
) *ConfigSnapshot {
const token = ""
if nsFn != nil {
nsFn(ns)
}
config := stateConfig{
logger: hclog.NewNullLogger(),
source: &structs.QuerySource{
Datacenter: "dc1",
},
cache: &noopCacheNotifier{},
health: &noopHealth{},
dnsConfig: DNSConfig{ // TODO: make configurable
Domain: "consul",
AltDomain: "",
},
serverSNIFn: serverSNIFn,
intentionDefaultAllow: false, // TODO: make configurable
}
s, err := newServiceInstanceFromNodeService(ns, token)
if err != nil {
t.Fatalf("err: %v", err)
return nil
}
handler, err := newKindHandler(config, s, nil) // NOTE: nil channel
if err != nil {
t.Fatalf("err: %v", err)
return nil
}
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
snap, err := handler.initialize(ctx)
if err != nil {
t.Fatalf("err: %v", err)
return nil
}
for _, u := range updates {
if err := handler.handleUpdate(ctx, u, &snap); err != nil {
t.Fatalf("Failed to handle update from watch %q: %v", u.CorrelationID, err)
return nil
}
}
return &snap
}
func testSpliceEvents(base, extra []cache.UpdateEvent) []cache.UpdateEvent {
if len(extra) == 0 {
return base
}
var (
hasExtra = make(map[string]cache.UpdateEvent)
completeExtra = make(map[string]struct{})
allEvents []cache.UpdateEvent
)
for _, e := range extra {
hasExtra[e.CorrelationID] = e
}
// Override base events with extras if they share the same correlationID,
// then put the rest of the extras at the end.
for _, e := range base {
if extraEvt, ok := hasExtra[e.CorrelationID]; ok {
if extraEvt.Result != nil { // nil results are tombstones
allEvents = append(allEvents, extraEvt)
}
completeExtra[e.CorrelationID] = struct{}{}
} else {
allEvents = append(allEvents, e)
}
}
for _, e := range extra {
if _, ok := completeExtra[e.CorrelationID]; !ok {
allEvents = append(allEvents, e)
}
}
return allEvents
}
func testSpliceNodeServiceFunc(prev, next func(ns *structs.NodeService)) func(ns *structs.NodeService) {
return func(ns *structs.NodeService) {
if prev != nil {
prev(ns)
}
next(ns)
}
}
// ControllableCacheType is a cache.Type that simulates a typical blocking RPC
// but lets us control the responses and when they are delivered easily.
type ControllableCacheType struct {
index uint64
value sync.Map
// Need a condvar to trigger all blocking requests (there might be multiple
// for same type due to background refresh and timing issues) when values
// change. Chans make it nondeterministic which one triggers or need extra
// locking to coordinate replacing after close etc.
triggerMu sync.Mutex
trigger *sync.Cond
blocking bool
lastReq atomic.Value
}
// NewControllableCacheType returns a cache.Type that can be controlled for
// testing.
func NewControllableCacheType(t testing.T) *ControllableCacheType {
c := &ControllableCacheType{
index: 5,
blocking: true,
}
c.trigger = sync.NewCond(&c.triggerMu)
return c
}
// Set sets the response value to be returned from subsequent cache gets for the
// type.
func (ct *ControllableCacheType) Set(key string, value interface{}) {
atomic.AddUint64(&ct.index, 1)
ct.value.Store(key, value)
ct.triggerMu.Lock()
ct.trigger.Broadcast()
ct.triggerMu.Unlock()
}
// Fetch implements cache.Type. It simulates blocking or non-blocking queries.
func (ct *ControllableCacheType) Fetch(opts cache.FetchOptions, req cache.Request) (cache.FetchResult, error) {
index := atomic.LoadUint64(&ct.index)
ct.lastReq.Store(req)
shouldBlock := ct.blocking && opts.MinIndex > 0 && opts.MinIndex == index
if shouldBlock {
// Wait for return to be triggered. We ignore timeouts based on opts.Timeout
// since in practice they will always be way longer than our tests run for
// and the caller can simulate timeout by triggering return without changing
// index or value.
ct.triggerMu.Lock()
ct.trigger.Wait()
ct.triggerMu.Unlock()
}
info := req.CacheInfo()
key := path.Join(info.Key, info.Datacenter) // omit token for testing purposes
// reload index as it probably got bumped
index = atomic.LoadUint64(&ct.index)
val, _ := ct.value.Load(key)
if err, ok := val.(error); ok {
return cache.FetchResult{
Value: nil,
Index: index,
}, err
}
return cache.FetchResult{
Value: val,
Index: index,
}, nil
}
func (ct *ControllableCacheType) RegisterOptions() cache.RegisterOptions {
return cache.RegisterOptions{
Refresh: ct.blocking,
SupportsBlocking: ct.blocking,
QueryTimeout: 10 * time.Minute,
}
}
// golden is used to read golden files stores in consul/agent/xds/testdata
func golden(t testing.T, name string) string {
t.Helper()
golden := filepath.Join(projectRoot(), "../", "/xds/testdata", name+".golden")
expected, err := ioutil.ReadFile(golden)
require.NoError(t, err)
return string(expected)
}
func projectRoot() string {
_, base, _, _ := runtime.Caller(0)
return filepath.Dir(base)
}
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