package peerstream import ( "context" "fmt" "io" "sync" "testing" "time" "github.com/stretchr/testify/require" "google.golang.org/grpc/metadata" "github.com/hashicorp/consul/proto/private/pbpeerstream" ) type MockClient struct { mu sync.Mutex ErrCh chan error ReplicationStream *MockStream } func (c *MockClient) Send(r *pbpeerstream.ReplicationMessage) error { c.ReplicationStream.recvCh <- r return nil } func (c *MockClient) Recv() (*pbpeerstream.ReplicationMessage, error) { return c.RecvWithTimeout(10 * time.Millisecond) } func (c *MockClient) RecvWithTimeout(dur time.Duration) (*pbpeerstream.ReplicationMessage, error) { select { case err := <-c.ErrCh: return nil, err case r := <-c.ReplicationStream.sendCh: return r, nil case <-time.After(dur): return nil, io.EOF } } func (c *MockClient) Close() { close(c.ReplicationStream.recvCh) } func NewMockClient(ctx context.Context) *MockClient { return &MockClient{ ReplicationStream: newTestReplicationStream(ctx), } } // DrainStream reads messages from the stream until both the exported service list and // trust bundle messages have been read. We do this because their ording is indeterministic. func (c *MockClient) DrainStream(t *testing.T) { seen := make(map[string]struct{}) for len(seen) < 2 { msg, err := c.Recv() require.NoError(t, err) if r := msg.GetResponse(); r != nil && r.ResourceURL == pbpeerstream.TypeURLExportedServiceList { seen[pbpeerstream.TypeURLExportedServiceList] = struct{}{} } if r := msg.GetResponse(); r != nil && r.ResourceURL == pbpeerstream.TypeURLPeeringTrustBundle { seen[pbpeerstream.TypeURLPeeringTrustBundle] = struct{}{} } } } // MockStream mocks peering.PeeringService_StreamResourcesServer type MockStream struct { sendCh chan *pbpeerstream.ReplicationMessage recvCh chan *pbpeerstream.ReplicationMessage ctx context.Context } var _ pbpeerstream.PeerStreamService_StreamResourcesServer = (*MockStream)(nil) func newTestReplicationStream(ctx context.Context) *MockStream { return &MockStream{ sendCh: make(chan *pbpeerstream.ReplicationMessage, 1), recvCh: make(chan *pbpeerstream.ReplicationMessage, 1), ctx: ctx, } } // Send implements pbpeerstream.PeeringService_StreamResourcesServer func (s *MockStream) Send(r *pbpeerstream.ReplicationMessage) error { s.sendCh <- r return nil } // Recv implements pbpeerstream.PeeringService_StreamResourcesServer func (s *MockStream) Recv() (*pbpeerstream.ReplicationMessage, error) { r := <-s.recvCh if r == nil { return nil, io.EOF } return r, nil } // Context implements grpc.ServerStream and grpc.ClientStream func (s *MockStream) Context() context.Context { return s.ctx } // SendMsg implements grpc.ServerStream and grpc.ClientStream func (s *MockStream) SendMsg(m interface{}) error { return nil } // RecvMsg implements grpc.ServerStream and grpc.ClientStream func (s *MockStream) RecvMsg(m interface{}) error { return nil } // SetHeader implements grpc.ServerStream func (s *MockStream) SetHeader(metadata.MD) error { return nil } // SendHeader implements grpc.ServerStream func (s *MockStream) SendHeader(metadata.MD) error { return nil } // SetTrailer implements grpc.ServerStream func (s *MockStream) SetTrailer(metadata.MD) {} // incrementalTime is an artificial clock used during testing. For those // scenarios you would pass around the method pointer for `Now` in places where // you would be using `time.Now`. type incrementalTime struct { base time.Time next uint64 mu sync.Mutex } // Now advances the internal clock by 1 second and returns that value. func (t *incrementalTime) Now() time.Time { t.mu.Lock() defer t.mu.Unlock() t.next++ dur := time.Duration(t.next) * time.Second return t.base.Add(dur) } // StaticNow returns the current internal clock without advancing it. func (t *incrementalTime) StaticNow() time.Time { t.mu.Lock() defer t.mu.Unlock() dur := time.Duration(t.next) * time.Second return t.base.Add(dur) } // FutureNow will return a given future value of the Now() function. // The numerical argument indicates which future Now value you wanted. The // value must be > 0. func (t *incrementalTime) FutureNow(n int) time.Time { if n < 1 { panic(fmt.Sprintf("argument must be > 1 but was %d", n)) } t.mu.Lock() defer t.mu.Unlock() dur := time.Duration(t.next+uint64(n)) * time.Second return t.base.Add(dur) }