open-consul/agent/proxycfg/manager_test.go

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package proxycfg
import (
"log"
"os"
"path"
"testing"
"time"
"github.com/mitchellh/copystructure"
"github.com/stretchr/testify/require"
"github.com/hashicorp/consul/agent/cache"
cachetype "github.com/hashicorp/consul/agent/cache-types"
"github.com/hashicorp/consul/agent/consul/discoverychain"
"github.com/hashicorp/consul/agent/local"
"github.com/hashicorp/consul/agent/structs"
"github.com/hashicorp/consul/agent/token"
)
// assertLastReqArgs verifies that each request type had the correct source
// parameters (e.g. Datacenter name) and token.
func assertLastReqArgs(t *testing.T, types *TestCacheTypes, token string, source *structs.QuerySource) {
t.Helper()
// Roots needs correct DC and token
rootReq := types.roots.lastReq.Load()
require.IsType(t, rootReq, &structs.DCSpecificRequest{})
require.Equal(t, token, rootReq.(*structs.DCSpecificRequest).Token)
require.Equal(t, source.Datacenter, rootReq.(*structs.DCSpecificRequest).Datacenter)
// Leaf needs correct DC and token
leafReq := types.leaf.lastReq.Load()
require.IsType(t, leafReq, &cachetype.ConnectCALeafRequest{})
require.Equal(t, token, leafReq.(*cachetype.ConnectCALeafRequest).Token)
require.Equal(t, source.Datacenter, leafReq.(*cachetype.ConnectCALeafRequest).Datacenter)
// Intentions needs correct DC and token
intReq := types.intentions.lastReq.Load()
require.IsType(t, intReq, &structs.IntentionQueryRequest{})
require.Equal(t, token, intReq.(*structs.IntentionQueryRequest).Token)
require.Equal(t, source.Datacenter, intReq.(*structs.IntentionQueryRequest).Datacenter)
}
func TestManager_BasicLifecycle(t *testing.T) {
// Create a bunch of common data for the various test cases.
roots, leaf := TestCerts(t)
dbTarget := structs.DiscoveryTarget{
Service: "db",
Namespace: "default",
Datacenter: "dc1",
}
dbTarget_v1 := structs.DiscoveryTarget{
Service: "db",
ServiceSubset: "v1",
Namespace: "default",
Datacenter: "dc1",
}
dbTarget_v2 := structs.DiscoveryTarget{
Service: "db",
ServiceSubset: "v2",
Namespace: "default",
Datacenter: "dc1",
}
dbDefaultChain := func() *structs.CompiledDiscoveryChain {
return discoverychain.TestCompileConfigEntries(t, "db", "default", "dc1",
&structs.ServiceResolverConfigEntry{
Kind: structs.ServiceResolver,
Name: "db",
},
)
}
dbSplitChain := func() *structs.CompiledDiscoveryChain {
return discoverychain.TestCompileConfigEntries(t, "db", "default", "dc1",
&structs.ProxyConfigEntry{
Kind: structs.ProxyDefaults,
Name: structs.ProxyConfigGlobal,
Config: map[string]interface{}{
"protocol": "http",
},
},
&structs.ServiceResolverConfigEntry{
Kind: structs.ServiceResolver,
Name: "db",
Subsets: map[string]structs.ServiceResolverSubset{
"v1": {
Filter: "Service.Meta.version == v1",
},
"v2": {
Filter: "Service.Meta.version == v2",
},
},
},
&structs.ServiceSplitterConfigEntry{
Kind: structs.ServiceSplitter,
Name: "db",
Splits: []structs.ServiceSplit{
{Weight: 60, ServiceSubset: "v1"},
{Weight: 40, ServiceSubset: "v2"},
},
},
)
}
webProxy := &structs.NodeService{
Kind: structs.ServiceKindConnectProxy,
ID: "web-sidecar-proxy",
Service: "web-sidecar-proxy",
Port: 9999,
Proxy: structs.ConnectProxyConfig{
DestinationServiceID: "web",
DestinationServiceName: "web",
LocalServiceAddress: "127.0.0.1",
LocalServicePort: 8080,
Config: map[string]interface{}{
"foo": "bar",
},
Upstreams: structs.TestUpstreams(t),
},
}
rootsCacheKey := testGenCacheKey(&structs.DCSpecificRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token"},
})
leafCacheKey := testGenCacheKey(&cachetype.ConnectCALeafRequest{
Datacenter: "dc1",
Token: "my-token",
Service: "web",
})
intentionCacheKey := testGenCacheKey(&structs.IntentionQueryRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token"},
Match: &structs.IntentionQueryMatch{
Type: structs.IntentionMatchDestination,
Entries: []structs.IntentionMatchEntry{
{
Namespace: structs.IntentionDefaultNamespace,
Name: "web",
},
},
},
})
dbChainCacheKey := testGenCacheKey(&structs.DiscoveryChainRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token"},
Name: "db",
})
dbHealthCacheKey := testGenCacheKey(&structs.ServiceSpecificRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token", Filter: ""},
ServiceName: "db",
Connect: true,
})
db_v1_HealthCacheKey := testGenCacheKey(&structs.ServiceSpecificRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token",
Filter: "Service.Meta.version == v1",
},
ServiceName: "db",
Connect: true,
})
db_v2_HealthCacheKey := testGenCacheKey(&structs.ServiceSpecificRequest{
Datacenter: "dc1",
QueryOptions: structs.QueryOptions{Token: "my-token",
Filter: "Service.Meta.version == v2",
},
ServiceName: "db",
Connect: true,
})
// Create test cases using some of the common data above.
tests := []*testcase_BasicLifecycle{
{
name: "simple-default-resolver",
setup: func(t *testing.T, types *TestCacheTypes) {
// Note that we deliberately leave the 'geo-cache' prepared query to time out
types.health.Set(dbHealthCacheKey, &structs.IndexedCheckServiceNodes{
Nodes: TestUpstreamNodes(t),
})
types.compiledChain.Set(dbChainCacheKey, &structs.DiscoveryChainResponse{
Chain: dbDefaultChain(),
})
},
expectSnap: &ConfigSnapshot{
Kind: structs.ServiceKindConnectProxy,
Service: webProxy.Service,
ProxyID: webProxy.ID,
Address: webProxy.Address,
Port: webProxy.Port,
Proxy: webProxy.Proxy,
TaggedAddresses: make(map[string]structs.ServiceAddress),
Roots: roots,
ConnectProxy: configSnapshotConnectProxy{
Leaf: leaf,
DiscoveryChain: map[string]*structs.CompiledDiscoveryChain{
"db": dbDefaultChain(),
},
WatchedUpstreams: nil, // Clone() clears this out
WatchedUpstreamEndpoints: map[string]map[structs.DiscoveryTarget]structs.CheckServiceNodes{
"db": {
dbTarget: TestUpstreamNodes(t),
},
},
UpstreamEndpoints: map[string]structs.CheckServiceNodes{},
},
Datacenter: "dc1",
},
},
{
name: "chain-resolver-with-version-split",
setup: func(t *testing.T, types *TestCacheTypes) {
// Note that we deliberately leave the 'geo-cache' prepared query to time out
types.health.Set(db_v1_HealthCacheKey, &structs.IndexedCheckServiceNodes{
Nodes: TestUpstreamNodes(t),
})
types.health.Set(db_v2_HealthCacheKey, &structs.IndexedCheckServiceNodes{
Nodes: TestUpstreamNodesAlternate(t),
})
types.compiledChain.Set(dbChainCacheKey, &structs.DiscoveryChainResponse{
Chain: dbSplitChain(),
})
},
expectSnap: &ConfigSnapshot{
Kind: structs.ServiceKindConnectProxy,
Service: webProxy.Service,
ProxyID: webProxy.ID,
Address: webProxy.Address,
Port: webProxy.Port,
Proxy: webProxy.Proxy,
TaggedAddresses: make(map[string]structs.ServiceAddress),
Roots: roots,
ConnectProxy: configSnapshotConnectProxy{
Leaf: leaf,
DiscoveryChain: map[string]*structs.CompiledDiscoveryChain{
"db": dbSplitChain(),
},
WatchedUpstreams: nil, // Clone() clears this out
WatchedUpstreamEndpoints: map[string]map[structs.DiscoveryTarget]structs.CheckServiceNodes{
"db": {
dbTarget_v1: TestUpstreamNodes(t),
dbTarget_v2: TestUpstreamNodesAlternate(t),
},
},
UpstreamEndpoints: map[string]structs.CheckServiceNodes{},
},
Datacenter: "dc1",
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
require.NotNil(t, tt.setup)
require.NotNil(t, tt.expectSnap)
// Use a mocked cache to make life simpler
types := NewTestCacheTypes(t)
// Setup initial values
types.roots.Set(rootsCacheKey, roots)
types.leaf.Set(leafCacheKey, leaf)
types.intentions.Set(intentionCacheKey, TestIntentions(t))
tt.setup(t, types)
expectSnapCopy, err := copystructure.Copy(tt.expectSnap)
require.NoError(t, err)
webProxyCopy, err := copystructure.Copy(webProxy)
require.NoError(t, err)
testManager_BasicLifecycle(t, tt, types,
rootsCacheKey, leafCacheKey,
roots, leaf,
webProxyCopy.(*structs.NodeService),
expectSnapCopy.(*ConfigSnapshot),
)
})
}
}
type testcase_BasicLifecycle struct {
name string
setup func(t *testing.T, types *TestCacheTypes)
webProxy *structs.NodeService
expectSnap *ConfigSnapshot
}
func testManager_BasicLifecycle(
t *testing.T,
tt *testcase_BasicLifecycle,
types *TestCacheTypes,
rootsCacheKey, leafCacheKey string,
roots *structs.IndexedCARoots,
leaf *structs.IssuedCert,
webProxy *structs.NodeService,
expectSnap *ConfigSnapshot,
) {
c := TestCacheWithTypes(t, types)
require := require.New(t)
logger := log.New(os.Stderr, "", log.LstdFlags)
state := local.NewState(local.Config{}, logger, &token.Store{})
source := &structs.QuerySource{
Node: "node1",
Datacenter: "dc1",
}
// Stub state syncing
state.TriggerSyncChanges = func() {}
// Create manager
m, err := NewManager(ManagerConfig{c, state, source, logger})
require.NoError(err)
// And run it
go func() {
err := m.Run()
require.NoError(err)
}()
// BEFORE we register, we should be able to get a watch channel
wCh, cancel := m.Watch(webProxy.ID)
defer cancel()
// And it should block with nothing sent on it yet
assertWatchChanBlocks(t, wCh)
require.NoError(state.AddService(webProxy, "my-token"))
// We should see the initial config delivered but not until after the
// coalesce timeout
start := time.Now()
assertWatchChanRecvs(t, wCh, expectSnap)
require.True(time.Since(start) >= coalesceTimeout)
assertLastReqArgs(t, types, "my-token", source)
// Update NodeConfig
webProxy.Port = 7777
require.NoError(state.AddService(webProxy, "my-token"))
expectSnap.Port = 7777
assertWatchChanRecvs(t, wCh, expectSnap)
// Register a second watcher
wCh2, cancel2 := m.Watch(webProxy.ID)
defer cancel2()
// New watcher should immediately receive the current state
assertWatchChanRecvs(t, wCh2, expectSnap)
// Change token
require.NoError(state.AddService(webProxy, "other-token"))
assertWatchChanRecvs(t, wCh, expectSnap)
assertWatchChanRecvs(t, wCh2, expectSnap)
// This is actually sort of timing dependent - the cache background fetcher
// will still be fetching with the old token, but we rely on the fact that our
// mock type will have been blocked on those for a while.
assertLastReqArgs(t, types, "other-token", source)
// Update roots
newRoots, newLeaf := TestCerts(t)
newRoots.Roots = append(newRoots.Roots, roots.Roots...)
types.roots.Set(rootsCacheKey, newRoots)
// Expect new roots in snapshot
expectSnap.Roots = newRoots
assertWatchChanRecvs(t, wCh, expectSnap)
assertWatchChanRecvs(t, wCh2, expectSnap)
// Update leaf
types.leaf.Set(leafCacheKey, newLeaf)
// Expect new roots in snapshot
expectSnap.ConnectProxy.Leaf = newLeaf
assertWatchChanRecvs(t, wCh, expectSnap)
assertWatchChanRecvs(t, wCh2, expectSnap)
// Remove the proxy
state.RemoveService(webProxy.ID)
// Chan should NOT close
assertWatchChanBlocks(t, wCh)
assertWatchChanBlocks(t, wCh2)
// Re-add the proxy with another new port
webProxy.Port = 3333
require.NoError(state.AddService(webProxy, "other-token"))
// Same watch chan should be notified again
expectSnap.Port = 3333
assertWatchChanRecvs(t, wCh, expectSnap)
assertWatchChanRecvs(t, wCh2, expectSnap)
// Cancel watch
cancel()
// Watch chan should be closed
assertWatchChanRecvs(t, wCh, nil)
// We specifically don't remove the proxy or cancel the second watcher to
// ensure both are cleaned up by close.
require.NoError(m.Close())
// Sanity check the state is clean
m.mu.Lock()
defer m.mu.Unlock()
require.Len(m.proxies, 0)
require.Len(m.watchers, 0)
}
func assertWatchChanBlocks(t *testing.T, ch <-chan *ConfigSnapshot) {
t.Helper()
select {
case <-ch:
t.Fatal("Should be nothing sent on watch chan yet")
default:
}
}
func assertWatchChanRecvs(t *testing.T, ch <-chan *ConfigSnapshot, expect *ConfigSnapshot) {
t.Helper()
select {
case got, ok := <-ch:
require.Equal(t, expect, got)
if expect == nil {
require.False(t, ok, "watch chan should be closed")
}
case <-time.After(100*time.Millisecond + coalesceTimeout):
t.Fatal("recv timeout")
}
}
func TestManager_deliverLatest(t *testing.T) {
// None of these need to do anything to test this method just be valid
logger := log.New(os.Stderr, "", log.LstdFlags)
cfg := ManagerConfig{
Cache: cache.New(nil),
State: local.NewState(local.Config{}, logger, &token.Store{}),
Source: &structs.QuerySource{
Node: "node1",
Datacenter: "dc1",
},
Logger: logger,
}
require := require.New(t)
m, err := NewManager(cfg)
require.NoError(err)
snap1 := &ConfigSnapshot{
ProxyID: "test-proxy",
Port: 1111,
}
snap2 := &ConfigSnapshot{
ProxyID: "test-proxy",
Port: 2222,
}
// Put an overall time limit on this test case so we don't have to guard every
// call to ensure the whole test doesn't deadlock.
time.AfterFunc(100*time.Millisecond, func() {
t.Fatal("test timed out")
})
// test 1 buffered chan
ch1 := make(chan *ConfigSnapshot, 1)
// Sending to an unblocked chan should work
m.deliverLatest(snap1, ch1)
// Check it was delivered
require.Equal(snap1, <-ch1)
// Now send both without reading simulating a slow client
m.deliverLatest(snap1, ch1)
m.deliverLatest(snap2, ch1)
// Check we got the _second_ one
require.Equal(snap2, <-ch1)
// Same again for 5-buffered chan
ch5 := make(chan *ConfigSnapshot, 5)
// Sending to an unblocked chan should work
m.deliverLatest(snap1, ch5)
// Check it was delivered
require.Equal(snap1, <-ch5)
// Now send enough to fill the chan simulating a slow client
for i := 0; i < 5; i++ {
m.deliverLatest(snap1, ch5)
}
m.deliverLatest(snap2, ch5)
// Check we got the _second_ one
require.Equal(snap2, <-ch5)
}
func testGenCacheKey(req cache.Request) string {
info := req.CacheInfo()
return path.Join(info.Key, info.Datacenter)
}