353 lines
8.9 KiB
Go
353 lines
8.9 KiB
Go
package autoconf
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import (
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"context"
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"crypto/x509"
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"net"
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"sync"
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"testing"
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"github.com/stretchr/testify/mock"
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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/metadata"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/agent/token"
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"github.com/hashicorp/consul/proto/pbautoconf"
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"github.com/hashicorp/consul/sdk/testutil"
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)
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type mockDirectRPC struct {
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mock.Mock
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}
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func newMockDirectRPC(t *testing.T) *mockDirectRPC {
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m := mockDirectRPC{}
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m.Test(t)
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return &m
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}
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func (m *mockDirectRPC) RPC(dc string, node string, addr net.Addr, method string, args interface{}, reply interface{}) error {
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var retValues mock.Arguments
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if method == "AutoConfig.InitialConfiguration" {
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req := args.(*pbautoconf.AutoConfigRequest)
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csr := req.CSR
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req.CSR = ""
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retValues = m.Called(dc, node, addr, method, args, reply)
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req.CSR = csr
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} else if method == "AutoEncrypt.Sign" {
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req := args.(*structs.CASignRequest)
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csr := req.CSR
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req.CSR = ""
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retValues = m.Called(dc, node, addr, method, args, reply)
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req.CSR = csr
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} else {
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retValues = m.Called(dc, node, addr, method, args, reply)
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}
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return retValues.Error(0)
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}
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type mockTLSConfigurator struct {
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mock.Mock
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}
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func newMockTLSConfigurator(t *testing.T) *mockTLSConfigurator {
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m := mockTLSConfigurator{}
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m.Test(t)
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return &m
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}
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func (m *mockTLSConfigurator) UpdateAutoTLS(manualCAPEMs, connectCAPEMs []string, pub, priv string, verifyServerHostname bool) error {
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if priv != "" {
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priv = "redacted"
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}
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ret := m.Called(manualCAPEMs, connectCAPEMs, pub, priv, verifyServerHostname)
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return ret.Error(0)
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}
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func (m *mockTLSConfigurator) UpdateAutoTLSCA(pems []string) error {
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ret := m.Called(pems)
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return ret.Error(0)
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}
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func (m *mockTLSConfigurator) UpdateAutoTLSCert(pub, priv string) error {
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if priv != "" {
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priv = "redacted"
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}
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ret := m.Called(pub, priv)
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return ret.Error(0)
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}
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func (m *mockTLSConfigurator) AutoEncryptCert() *x509.Certificate {
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ret := m.Called()
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cert, _ := ret.Get(0).(*x509.Certificate)
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return cert
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}
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type mockServerProvider struct {
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mock.Mock
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}
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func newMockServerProvider(t *testing.T) *mockServerProvider {
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m := mockServerProvider{}
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m.Test(t)
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return &m
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}
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func (m *mockServerProvider) FindLANServer() *metadata.Server {
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ret := m.Called()
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srv, _ := ret.Get(0).(*metadata.Server)
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return srv
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}
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type mockWatcher struct {
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ch chan<- cache.UpdateEvent
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done <-chan struct{}
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}
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type mockCache struct {
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mock.Mock
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lock sync.Mutex
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watchers map[string][]mockWatcher
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}
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func newMockCache(t *testing.T) *mockCache {
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m := mockCache{
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watchers: make(map[string][]mockWatcher),
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}
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m.Test(t)
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return &m
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}
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func (m *mockCache) Notify(ctx context.Context, t string, r cache.Request, correlationID string, ch chan<- cache.UpdateEvent) error {
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ret := m.Called(ctx, t, r, correlationID, ch)
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err := ret.Error(0)
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if err == nil {
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m.lock.Lock()
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key := r.CacheInfo().Key
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m.watchers[key] = append(m.watchers[key], mockWatcher{ch: ch, done: ctx.Done()})
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m.lock.Unlock()
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}
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return err
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}
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func (m *mockCache) Prepopulate(t string, result cache.FetchResult, dc string, peerName string, token string, key string) error {
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var restore string
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cert, ok := result.Value.(*structs.IssuedCert)
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if ok {
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// we cannot know what the private key is prior to it being injected into the cache.
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// therefore redact it here and all mock expectations should take that into account
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restore = cert.PrivateKeyPEM
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cert.PrivateKeyPEM = "redacted"
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}
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ret := m.Called(t, result, dc, peerName, token, key)
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if ok && restore != "" {
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cert.PrivateKeyPEM = restore
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}
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return ret.Error(0)
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}
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func (m *mockCache) sendNotification(ctx context.Context, key string, u cache.UpdateEvent) bool {
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m.lock.Lock()
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defer m.lock.Unlock()
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watchers, ok := m.watchers[key]
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if !ok || len(m.watchers) < 1 {
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return false
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}
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var newWatchers []mockWatcher
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for _, watcher := range watchers {
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select {
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case watcher.ch <- u:
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newWatchers = append(newWatchers, watcher)
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case <-watcher.done:
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// do nothing, this watcher will be removed from the list
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case <-ctx.Done():
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// return doesn't matter here really, the test is being cancelled
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return true
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}
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}
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// this removes any already cancelled watches from being sent to
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m.watchers[key] = newWatchers
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return true
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}
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type mockTokenStore struct {
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mock.Mock
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}
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func newMockTokenStore(t *testing.T) *mockTokenStore {
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m := mockTokenStore{}
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m.Test(t)
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return &m
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}
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func (m *mockTokenStore) AgentToken() string {
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ret := m.Called()
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return ret.String(0)
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}
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func (m *mockTokenStore) UpdateAgentToken(secret string, source token.TokenSource) bool {
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return m.Called(secret, source).Bool(0)
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}
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func (m *mockTokenStore) Notify(kind token.TokenKind) token.Notifier {
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ret := m.Called(kind)
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n, _ := ret.Get(0).(token.Notifier)
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return n
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}
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func (m *mockTokenStore) StopNotify(notifier token.Notifier) {
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m.Called(notifier)
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}
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type mockedConfig struct {
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Config
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loader *configLoader
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directRPC *mockDirectRPC
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serverProvider *mockServerProvider
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cache *mockCache
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tokens *mockTokenStore
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tlsCfg *mockTLSConfigurator
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enterpriseConfig *mockedEnterpriseConfig
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}
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func newMockedConfig(t *testing.T) *mockedConfig {
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loader := setupRuntimeConfig(t)
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directRPC := newMockDirectRPC(t)
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serverProvider := newMockServerProvider(t)
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mcache := newMockCache(t)
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tokens := newMockTokenStore(t)
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tlsCfg := newMockTLSConfigurator(t)
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entConfig := newMockedEnterpriseConfig(t)
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// I am not sure it is well defined behavior but in testing it
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// out it does appear like Cleanup functions can fail tests
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// Adding in the mock expectations assertions here saves us
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// a bunch of code in the other test functions.
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t.Cleanup(func() {
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if !t.Failed() {
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directRPC.AssertExpectations(t)
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serverProvider.AssertExpectations(t)
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mcache.AssertExpectations(t)
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tokens.AssertExpectations(t)
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tlsCfg.AssertExpectations(t)
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}
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})
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return &mockedConfig{
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Config: Config{
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Loader: loader.Load,
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DirectRPC: directRPC,
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ServerProvider: serverProvider,
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Cache: mcache,
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Tokens: tokens,
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TLSConfigurator: tlsCfg,
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Logger: testutil.Logger(t),
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EnterpriseConfig: entConfig.EnterpriseConfig,
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},
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loader: loader,
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directRPC: directRPC,
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serverProvider: serverProvider,
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cache: mcache,
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tokens: tokens,
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tlsCfg: tlsCfg,
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enterpriseConfig: entConfig,
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}
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}
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func (m *mockedConfig) expectInitialTLS(t *testing.T, agentName, datacenter, token string, ca *structs.CARoot, indexedRoots *structs.IndexedCARoots, cert *structs.IssuedCert, extraCerts []string) {
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var pems []string
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for _, root := range indexedRoots.Roots {
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pems = append(pems, root.RootCert)
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}
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for _, root := range indexedRoots.Roots {
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if len(root.IntermediateCerts) == 0 {
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root.IntermediateCerts = nil
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}
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}
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// we should update the TLS configurator with the proper certs
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m.tlsCfg.On("UpdateAutoTLS",
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extraCerts,
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pems,
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cert.CertPEM,
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// auto-config handles the CSR and Key so our tests don't have
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// a way to know that the key is correct or not. We do replace
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// a non empty PEM with "redacted" so we can ensure that some
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// certificate is being sent
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"redacted",
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true,
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).Return(nil).Once()
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rootRes := cache.FetchResult{Value: indexedRoots, Index: indexedRoots.QueryMeta.Index}
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rootsReq := structs.DCSpecificRequest{Datacenter: datacenter}
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// we should prepopulate the cache with the CA roots
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m.cache.On("Prepopulate",
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cachetype.ConnectCARootName,
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rootRes,
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datacenter,
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"",
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"",
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rootsReq.CacheInfo().Key,
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).Return(nil).Once()
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leafReq := cachetype.ConnectCALeafRequest{
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Token: token,
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Agent: agentName,
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Datacenter: datacenter,
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}
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// copy the cert and redact the private key for the mock expectation
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// the actual private key will not correspond to the cert but thats
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// because AutoConfig is generated a key/csr internally and sending that
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// on up with the request.
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copy := *cert
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copy.PrivateKeyPEM = "redacted"
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leafRes := cache.FetchResult{
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Value: ©,
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Index: copy.RaftIndex.ModifyIndex,
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State: cachetype.ConnectCALeafSuccess(ca.SigningKeyID),
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}
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// we should prepopulate the cache with the agents cert
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m.cache.On("Prepopulate",
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cachetype.ConnectCALeafName,
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leafRes,
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datacenter,
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"",
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token,
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leafReq.Key(),
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).Return(nil).Once()
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// when prepopulating the cert in the cache we grab the token so
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// we should expec that here
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m.tokens.On("AgentToken").Return(token).Once()
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}
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func (m *mockedConfig) setupInitialTLS(t *testing.T, agentName, datacenter, token string) (*structs.IndexedCARoots, *structs.IssuedCert, []string) {
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ca, indexedRoots, cert := testCerts(t, agentName, datacenter)
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ca2 := connect.TestCA(t, nil)
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extraCerts := []string{ca2.RootCert}
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m.expectInitialTLS(t, agentName, datacenter, token, ca, indexedRoots, cert, extraCerts)
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return indexedRoots, cert, extraCerts
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}
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