package notifications import ( "bytes" "context" "testing" "time" blocks "github.com/ipfs/go-block-format" blocksutil "github.com/ipfs/go-ipfs/blocks/blocksutil" cid "gx/ipfs/QmYhQaCYEcaPPjxJX7YcPcVKkQfRy6sJ7B3XmGFk82XYdQ/go-cid" ) func TestDuplicates(t *testing.T) { b1 := blocks.NewBlock([]byte("1")) b2 := blocks.NewBlock([]byte("2")) n := New() defer n.Shutdown() ch := n.Subscribe(context.Background(), b1.Cid(), b2.Cid()) n.Publish(b1) blockRecvd, ok := <-ch if !ok { t.Fail() } assertBlocksEqual(t, b1, blockRecvd) n.Publish(b1) // ignored duplicate n.Publish(b2) blockRecvd, ok = <-ch if !ok { t.Fail() } assertBlocksEqual(t, b2, blockRecvd) } func TestPublishSubscribe(t *testing.T) { blockSent := blocks.NewBlock([]byte("Greetings from The Interval")) n := New() defer n.Shutdown() ch := n.Subscribe(context.Background(), blockSent.Cid()) n.Publish(blockSent) blockRecvd, ok := <-ch if !ok { t.Fail() } assertBlocksEqual(t, blockRecvd, blockSent) } func TestSubscribeMany(t *testing.T) { e1 := blocks.NewBlock([]byte("1")) e2 := blocks.NewBlock([]byte("2")) n := New() defer n.Shutdown() ch := n.Subscribe(context.Background(), e1.Cid(), e2.Cid()) n.Publish(e1) r1, ok := <-ch if !ok { t.Fatal("didn't receive first expected block") } assertBlocksEqual(t, e1, r1) n.Publish(e2) r2, ok := <-ch if !ok { t.Fatal("didn't receive second expected block") } assertBlocksEqual(t, e2, r2) } // TestDuplicateSubscribe tests a scenario where a given block // would be requested twice at the same time. func TestDuplicateSubscribe(t *testing.T) { e1 := blocks.NewBlock([]byte("1")) n := New() defer n.Shutdown() ch1 := n.Subscribe(context.Background(), e1.Cid()) ch2 := n.Subscribe(context.Background(), e1.Cid()) n.Publish(e1) r1, ok := <-ch1 if !ok { t.Fatal("didn't receive first expected block") } assertBlocksEqual(t, e1, r1) r2, ok := <-ch2 if !ok { t.Fatal("didn't receive second expected block") } assertBlocksEqual(t, e1, r2) } func TestSubscribeIsANoopWhenCalledWithNoKeys(t *testing.T) { n := New() defer n.Shutdown() ch := n.Subscribe(context.Background()) // no keys provided if _, ok := <-ch; ok { t.Fatal("should be closed if no keys provided") } } func TestCarryOnWhenDeadlineExpires(t *testing.T) { impossibleDeadline := time.Nanosecond fastExpiringCtx, cancel := context.WithTimeout(context.Background(), impossibleDeadline) defer cancel() n := New() defer n.Shutdown() block := blocks.NewBlock([]byte("A Missed Connection")) blockChannel := n.Subscribe(fastExpiringCtx, block.Cid()) assertBlockChannelNil(t, blockChannel) } func TestDoesNotDeadLockIfContextCancelledBeforePublish(t *testing.T) { g := blocksutil.NewBlockGenerator() ctx, cancel := context.WithCancel(context.Background()) n := New() defer n.Shutdown() t.Log("generate a large number of blocks. exceed default buffer") bs := g.Blocks(1000) ks := func() []*cid.Cid { var keys []*cid.Cid for _, b := range bs { keys = append(keys, b.Cid()) } return keys }() _ = n.Subscribe(ctx, ks...) // ignore received channel t.Log("cancel context before any blocks published") cancel() for _, b := range bs { n.Publish(b) } t.Log("publishing the large number of blocks to the ignored channel must not deadlock") } func assertBlockChannelNil(t *testing.T, blockChannel <-chan blocks.Block) { _, ok := <-blockChannel if ok { t.Fail() } } func assertBlocksEqual(t *testing.T, a, b blocks.Block) { if !bytes.Equal(a.RawData(), b.RawData()) { t.Fatal("blocks aren't equal") } if a.Cid() != b.Cid() { t.Fatal("block keys aren't equal") } }