248 lines
7.1 KiB
Go
248 lines
7.1 KiB
Go
package proxycfg
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import (
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"sync"
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"sync/atomic"
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"time"
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"github.com/hashicorp/consul/agent/cache"
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cachetype "github.com/hashicorp/consul/agent/cache-types"
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"github.com/hashicorp/consul/agent/connect"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/mitchellh/go-testing-interface"
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"github.com/stretchr/testify/require"
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)
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// TestCacheTypes encapsulates all the different cache types proxycfg.State will
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// watch/request for controlling one during testing.
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type TestCacheTypes struct {
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roots *ControllableCacheType
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leaf *ControllableCacheType
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intentions *ControllableCacheType
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health *ControllableCacheType
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query *ControllableCacheType
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}
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// NewTestCacheTypes creates a set of ControllableCacheTypes for all types that
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// proxycfg will watch suitable for testing a proxycfg.State or Manager.
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func NewTestCacheTypes(t testing.T) *TestCacheTypes {
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t.Helper()
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ct := &TestCacheTypes{
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roots: NewControllableCacheType(t),
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leaf: NewControllableCacheType(t),
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intentions: NewControllableCacheType(t),
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health: NewControllableCacheType(t),
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query: NewControllableCacheType(t),
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}
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ct.query.blocking = false
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return ct
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}
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// TestCacheWithTypes registers ControllableCacheTypes for all types that
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// proxycfg will watch suitable for testing a proxycfg.State or Manager.
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func TestCacheWithTypes(t testing.T, types *TestCacheTypes) *cache.Cache {
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c := cache.TestCache(t)
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c.RegisterType(cachetype.ConnectCARootName, types.roots, &cache.RegisterOptions{
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Refresh: true,
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RefreshTimer: 0,
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RefreshTimeout: 10 * time.Minute,
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})
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c.RegisterType(cachetype.ConnectCALeafName, types.leaf, &cache.RegisterOptions{
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Refresh: true,
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RefreshTimer: 0,
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RefreshTimeout: 10 * time.Minute,
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})
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c.RegisterType(cachetype.IntentionMatchName, types.intentions, &cache.RegisterOptions{
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Refresh: true,
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RefreshTimer: 0,
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RefreshTimeout: 10 * time.Minute,
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})
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c.RegisterType(cachetype.HealthServicesName, types.health, &cache.RegisterOptions{
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Refresh: true,
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RefreshTimer: 0,
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RefreshTimeout: 10 * time.Minute,
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})
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c.RegisterType(cachetype.PreparedQueryName, types.query, &cache.RegisterOptions{
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Refresh: false,
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})
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return c
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}
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// TestCerts generates a CA and Leaf suitable for returning as mock CA
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// root/leaf cache requests.
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func TestCerts(t testing.T) (*structs.IndexedCARoots, *structs.IssuedCert) {
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t.Helper()
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ca := connect.TestCA(t, nil)
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roots := &structs.IndexedCARoots{
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ActiveRootID: ca.ID,
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TrustDomain: connect.TestClusterID,
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Roots: []*structs.CARoot{ca},
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}
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return roots, TestLeafForCA(t, ca)
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}
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// TestLeafForCA generates new Leaf suitable for returning as mock CA
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// leaf cache response, signed by an existing CA.
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func TestLeafForCA(t testing.T, ca *structs.CARoot) *structs.IssuedCert {
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leafPEM, pkPEM := connect.TestLeaf(t, "web", ca)
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leafCert, err := connect.ParseCert(leafPEM)
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require.NoError(t, err)
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return &structs.IssuedCert{
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SerialNumber: connect.HexString(leafCert.SerialNumber.Bytes()),
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CertPEM: leafPEM,
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PrivateKeyPEM: pkPEM,
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Service: "web",
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ServiceURI: leafCert.URIs[0].String(),
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ValidAfter: leafCert.NotBefore,
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ValidBefore: leafCert.NotAfter,
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}
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}
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// TestIntentions returns a sample intentions match result useful to
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// mocking service discovery cache results.
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func TestIntentions(t testing.T) *structs.IndexedIntentionMatches {
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return &structs.IndexedIntentionMatches{
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Matches: []structs.Intentions{
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[]*structs.Intention{
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&structs.Intention{
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ID: "foo",
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SourceNS: "default",
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SourceName: "billing",
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DestinationNS: "default",
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DestinationName: "web",
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Action: structs.IntentionActionAllow,
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},
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},
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},
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}
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}
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// TestUpstreamNodes returns a sample service discovery result useful to
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// mocking service discovery cache results.
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func TestUpstreamNodes(t testing.T) structs.CheckServiceNodes {
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return structs.CheckServiceNodes{
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structs.CheckServiceNode{
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Node: &structs.Node{
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ID: "test1",
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Node: "test1",
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Address: "10.10.1.1",
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Datacenter: "dc1",
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},
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Service: structs.TestNodeService(t),
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},
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structs.CheckServiceNode{
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Node: &structs.Node{
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ID: "test2",
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Node: "test2",
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Address: "10.10.1.2",
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Datacenter: "dc1",
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},
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Service: structs.TestNodeService(t),
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},
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}
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}
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// TestConfigSnapshot returns a fully populated snapshot
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func TestConfigSnapshot(t testing.T) *ConfigSnapshot {
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roots, leaf := TestCerts(t)
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return &ConfigSnapshot{
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Kind: structs.ServiceKindConnectProxy,
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ProxyID: "web-sidecar-proxy",
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Address: "0.0.0.0",
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Port: 9999,
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Proxy: structs.ConnectProxyConfig{
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DestinationServiceID: "web",
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DestinationServiceName: "web",
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LocalServiceAddress: "127.0.0.1",
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LocalServicePort: 8080,
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Config: map[string]interface{}{
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"foo": "bar",
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},
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Upstreams: structs.TestUpstreams(t),
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},
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Roots: roots,
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Leaf: leaf,
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UpstreamEndpoints: map[string]structs.CheckServiceNodes{
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"db": TestUpstreamNodes(t),
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},
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}
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}
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// ControllableCacheType is a cache.Type that simulates a typical blocking RPC
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// but lets us control the responses and when they are delivered easily.
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type ControllableCacheType struct {
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index uint64
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value atomic.Value
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// Need a condvar to trigger all blocking requests (there might be multiple
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// for same type due to background refresh and timing issues) when values
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// change. Chans make it nondeterministic which one triggers or need extra
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// locking to coordinate replacing after close etc.
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triggerMu sync.Mutex
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trigger *sync.Cond
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blocking bool
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lastReq atomic.Value
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}
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// NewControllableCacheType returns a cache.Type that can be controlled for
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// testing.
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func NewControllableCacheType(t testing.T) *ControllableCacheType {
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c := &ControllableCacheType{
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index: 5,
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blocking: true,
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}
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c.trigger = sync.NewCond(&c.triggerMu)
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return c
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}
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// Set sets the response value to be returned from subsequent cache gets for the
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// type.
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func (ct *ControllableCacheType) Set(value interface{}) {
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atomic.AddUint64(&ct.index, 1)
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ct.value.Store(value)
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ct.triggerMu.Lock()
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ct.trigger.Broadcast()
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ct.triggerMu.Unlock()
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}
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// Fetch implements cache.Type. It simulates blocking or non-blocking queries.
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func (ct *ControllableCacheType) Fetch(opts cache.FetchOptions, req cache.Request) (cache.FetchResult, error) {
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index := atomic.LoadUint64(&ct.index)
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ct.lastReq.Store(req)
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shouldBlock := ct.blocking && opts.MinIndex > 0 && opts.MinIndex == index
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if shouldBlock {
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// Wait for return to be triggered. We ignore timeouts based on opts.Timeout
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// since in practice they will always be way longer than our tests run for
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// and the caller can simulate timeout by triggering return without changing
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// index or value.
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ct.triggerMu.Lock()
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ct.trigger.Wait()
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ct.triggerMu.Unlock()
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}
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// reload index as it probably got bumped
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index = atomic.LoadUint64(&ct.index)
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val := ct.value.Load()
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if err, ok := val.(error); ok {
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return cache.FetchResult{
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Value: nil,
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Index: index,
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}, err
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}
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return cache.FetchResult{
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Value: val,
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Index: index,
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}, nil
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}
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// SupportsBlocking implements cache.Type
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func (ct *ControllableCacheType) SupportsBlocking() bool {
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return ct.blocking
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}
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