package mocknet import ( "bytes" "io" "math" "math/rand" "sync" "testing" "time" inet "github.com/ipfs/go-libp2p/p2p/net" peer "github.com/ipfs/go-libp2p/p2p/peer" protocol "github.com/ipfs/go-libp2p/p2p/protocol" testutil "util/testutil" detectrace "github.com/jbenet/go-detect-race" context "golang.org/x/net/context" ) func randPeer(t *testing.T) peer.ID { p, err := testutil.RandPeerID() if err != nil { t.Fatal(err) } return p } func TestNetworkSetup(t *testing.T) { ctx := context.Background() sk1, _, err := testutil.RandTestKeyPair(512) if err != nil { t.Fatal(t) } sk2, _, err := testutil.RandTestKeyPair(512) if err != nil { t.Fatal(t) } sk3, _, err := testutil.RandTestKeyPair(512) if err != nil { t.Fatal(t) } mn := New(ctx) // peers := []peer.ID{p1, p2, p3} // add peers to mock net a1 := testutil.RandLocalTCPAddress() a2 := testutil.RandLocalTCPAddress() a3 := testutil.RandLocalTCPAddress() h1, err := mn.AddPeer(sk1, a1) if err != nil { t.Fatal(err) } p1 := h1.ID() h2, err := mn.AddPeer(sk2, a2) if err != nil { t.Fatal(err) } p2 := h2.ID() h3, err := mn.AddPeer(sk3, a3) if err != nil { t.Fatal(err) } p3 := h3.ID() // check peers and net if mn.Host(p1) != h1 { t.Error("host for p1.ID != h1") } if mn.Host(p2) != h2 { t.Error("host for p2.ID != h2") } if mn.Host(p3) != h3 { t.Error("host for p3.ID != h3") } n1 := h1.Network() if mn.Net(p1) != n1 { t.Error("net for p1.ID != n1") } n2 := h2.Network() if mn.Net(p2) != n2 { t.Error("net for p2.ID != n1") } n3 := h3.Network() if mn.Net(p3) != n3 { t.Error("net for p3.ID != n1") } // link p1<-->p2, p1<-->p1, p2<-->p3, p3<-->p2 l12, err := mn.LinkPeers(p1, p2) if err != nil { t.Fatal(err) } if !(l12.Networks()[0] == n1 && l12.Networks()[1] == n2) && !(l12.Networks()[0] == n2 && l12.Networks()[1] == n1) { t.Error("l12 networks incorrect") } l11, err := mn.LinkPeers(p1, p1) if err != nil { t.Fatal(err) } if !(l11.Networks()[0] == n1 && l11.Networks()[1] == n1) { t.Error("l11 networks incorrect") } l23, err := mn.LinkPeers(p2, p3) if err != nil { t.Fatal(err) } if !(l23.Networks()[0] == n2 && l23.Networks()[1] == n3) && !(l23.Networks()[0] == n3 && l23.Networks()[1] == n2) { t.Error("l23 networks incorrect") } l32, err := mn.LinkPeers(p3, p2) if err != nil { t.Fatal(err) } if !(l32.Networks()[0] == n2 && l32.Networks()[1] == n3) && !(l32.Networks()[0] == n3 && l32.Networks()[1] == n2) { t.Error("l32 networks incorrect") } // check things links12 := mn.LinksBetweenPeers(p1, p2) if len(links12) != 1 { t.Errorf("should be 1 link bt. p1 and p2 (found %d)", len(links12)) } if links12[0] != l12 { t.Error("links 1-2 should be l12.") } links11 := mn.LinksBetweenPeers(p1, p1) if len(links11) != 1 { t.Errorf("should be 1 link bt. p1 and p1 (found %d)", len(links11)) } if links11[0] != l11 { t.Error("links 1-1 should be l11.") } links23 := mn.LinksBetweenPeers(p2, p3) if len(links23) != 2 { t.Errorf("should be 2 link bt. p2 and p3 (found %d)", len(links23)) } if !((links23[0] == l23 && links23[1] == l32) || (links23[0] == l32 && links23[1] == l23)) { t.Error("links 2-3 should be l23 and l32.") } // unlinking if err := mn.UnlinkPeers(p2, p1); err != nil { t.Error(err) } // check only one link affected: links12 = mn.LinksBetweenPeers(p1, p2) if len(links12) != 0 { t.Errorf("should be 0 now...", len(links12)) } links11 = mn.LinksBetweenPeers(p1, p1) if len(links11) != 1 { t.Errorf("should be 1 link bt. p1 and p1 (found %d)", len(links11)) } if links11[0] != l11 { t.Error("links 1-1 should be l11.") } links23 = mn.LinksBetweenPeers(p2, p3) if len(links23) != 2 { t.Errorf("should be 2 link bt. p2 and p3 (found %d)", len(links23)) } if !((links23[0] == l23 && links23[1] == l32) || (links23[0] == l32 && links23[1] == l23)) { t.Error("links 2-3 should be l23 and l32.") } // check connecting // first, no conns if len(n2.Conns()) > 0 || len(n3.Conns()) > 0 { t.Error("should have 0 conn. Got: (%d, %d)", len(n2.Conns()), len(n3.Conns())) } // connect p2->p3 if _, err := n2.DialPeer(ctx, p3); err != nil { t.Error(err) } if len(n2.Conns()) != 1 || len(n3.Conns()) != 1 { t.Errorf("should have (1,1) conn. Got: (%d, %d)", len(n2.Conns()), len(n3.Conns())) } // p := PrinterTo(os.Stdout) // p.NetworkConns(n1) // p.NetworkConns(n2) // p.NetworkConns(n3) // can create a stream 2->3, 3->2, if _, err := n2.NewStream(p3); err != nil { t.Error(err) } if _, err := n3.NewStream(p2); err != nil { t.Error(err) } // but not 1->2 nor 2->2 (not linked), nor 1->1 (not connected) if _, err := n1.NewStream(p2); err == nil { t.Error("should not be able to connect") } if _, err := n2.NewStream(p2); err == nil { t.Error("should not be able to connect") } if _, err := n1.NewStream(p1); err == nil { t.Error("should not be able to connect") } // connect p1->p1 (should work) if _, err := n1.DialPeer(ctx, p1); err != nil { t.Error("p1 should be able to dial self.", err) } // and a stream too if _, err := n1.NewStream(p1); err != nil { t.Error(err) } // connect p1->p2 if _, err := n1.DialPeer(ctx, p2); err == nil { t.Error("p1 should not be able to dial p2, not connected...") } // connect p3->p1 if _, err := n3.DialPeer(ctx, p1); err == nil { t.Error("p3 should not be able to dial p1, not connected...") } // relink p1->p2 l12, err = mn.LinkPeers(p1, p2) if err != nil { t.Fatal(err) } if !(l12.Networks()[0] == n1 && l12.Networks()[1] == n2) && !(l12.Networks()[0] == n2 && l12.Networks()[1] == n1) { t.Error("l12 networks incorrect") } // should now be able to connect // connect p1->p2 if _, err := n1.DialPeer(ctx, p2); err != nil { t.Error(err) } // and a stream should work now too :) if _, err := n2.NewStream(p3); err != nil { t.Error(err) } } func TestStreams(t *testing.T) { mn, err := FullMeshConnected(context.Background(), 3) if err != nil { t.Fatal(err) } handler := func(s inet.Stream) { b := make([]byte, 4) if _, err := io.ReadFull(s, b); err != nil { panic(err) } if !bytes.Equal(b, []byte("beep")) { panic("bytes mismatch") } if _, err := s.Write([]byte("boop")); err != nil { panic(err) } s.Close() } hosts := mn.Hosts() for _, h := range mn.Hosts() { h.SetStreamHandler(protocol.TestingID, handler) } s, err := hosts[0].NewStream(protocol.TestingID, hosts[1].ID()) if err != nil { t.Fatal(err) } if _, err := s.Write([]byte("beep")); err != nil { panic(err) } b := make([]byte, 4) if _, err := io.ReadFull(s, b); err != nil { panic(err) } if !bytes.Equal(b, []byte("boop")) { panic("bytes mismatch 2") } } func makePinger(st string, n int) func(inet.Stream) { return func(s inet.Stream) { go func() { defer s.Close() for i := 0; i < n; i++ { b := make([]byte, 4+len(st)) if _, err := s.Write([]byte("ping" + st)); err != nil { panic(err) } if _, err := io.ReadFull(s, b); err != nil { panic(err) } if !bytes.Equal(b, []byte("pong"+st)) { panic("bytes mismatch") } } }() } } func makePonger(st string) func(inet.Stream) { return func(s inet.Stream) { go func() { defer s.Close() for { b := make([]byte, 4+len(st)) if _, err := io.ReadFull(s, b); err != nil { if err == io.EOF { return } panic(err) } if !bytes.Equal(b, []byte("ping"+st)) { panic("bytes mismatch") } if _, err := s.Write([]byte("pong" + st)); err != nil { panic(err) } } }() } } func TestStreamsStress(t *testing.T) { nnodes := 100 if detectrace.WithRace() { nnodes = 50 } mn, err := FullMeshConnected(context.Background(), nnodes) if err != nil { t.Fatal(err) } hosts := mn.Hosts() for _, h := range hosts { ponger := makePonger(string(protocol.TestingID)) h.SetStreamHandler(protocol.TestingID, ponger) } var wg sync.WaitGroup for i := 0; i < 1000; i++ { wg.Add(1) go func(i int) { defer wg.Done() from := rand.Intn(len(hosts)) to := rand.Intn(len(hosts)) s, err := hosts[from].NewStream(protocol.TestingID, hosts[to].ID()) if err != nil { log.Debugf("%d (%s) %d (%s)", from, hosts[from], to, hosts[to]) panic(err) } log.Infof("%d start pinging", i) makePinger("pingpong", rand.Intn(100))(s) log.Infof("%d done pinging", i) }(i) } wg.Wait() } func TestAdding(t *testing.T) { mn := New(context.Background()) peers := []peer.ID{} for i := 0; i < 3; i++ { sk, _, err := testutil.RandTestKeyPair(512) if err != nil { t.Fatal(err) } a := testutil.RandLocalTCPAddress() h, err := mn.AddPeer(sk, a) if err != nil { t.Fatal(err) } peers = append(peers, h.ID()) } p1 := peers[0] p2 := peers[1] // link them for _, p1 := range peers { for _, p2 := range peers { if _, err := mn.LinkPeers(p1, p2); err != nil { t.Error(err) } } } // set the new stream handler on p2 h2 := mn.Host(p2) if h2 == nil { t.Fatalf("no host for %s", p2) } h2.SetStreamHandler(protocol.TestingID, func(s inet.Stream) { defer s.Close() b := make([]byte, 4) if _, err := io.ReadFull(s, b); err != nil { panic(err) } if string(b) != "beep" { panic("did not beep!") } if _, err := s.Write([]byte("boop")); err != nil { panic(err) } }) // connect p1 to p2 if _, err := mn.ConnectPeers(p1, p2); err != nil { t.Fatal(err) } // talk to p2 h1 := mn.Host(p1) if h1 == nil { t.Fatalf("no network for %s", p1) } s, err := h1.NewStream(protocol.TestingID, p2) if err != nil { t.Fatal(err) } if _, err := s.Write([]byte("beep")); err != nil { t.Error(err) } b := make([]byte, 4) if _, err := io.ReadFull(s, b); err != nil { t.Error(err) } if !bytes.Equal(b, []byte("boop")) { t.Error("bytes mismatch 2") } } func TestRateLimiting(t *testing.T) { rl := NewRatelimiter(10) if !within(rl.Limit(10), time.Duration(float32(time.Second)), time.Millisecond/10) { t.Fail() } if !within(rl.Limit(10), time.Duration(float32(time.Second*2)), time.Millisecond) { t.Fail() } if !within(rl.Limit(10), time.Duration(float32(time.Second*3)), time.Millisecond) { t.Fail() } if within(rl.Limit(10), time.Duration(float32(time.Second*3)), time.Millisecond) { t.Fail() } rl.UpdateBandwidth(50) if !within(rl.Limit(75), time.Duration(float32(time.Second)*1.5), time.Millisecond/10) { t.Fail() } if within(rl.Limit(75), time.Duration(float32(time.Second)*1.5), time.Millisecond/10) { t.Fail() } rl.UpdateBandwidth(100) if !within(rl.Limit(1), time.Duration(time.Millisecond*10), time.Millisecond/10) { t.Fail() } if within(rl.Limit(1), time.Duration(time.Millisecond*10), time.Millisecond/10) { t.Fail() } } func within(t1 time.Duration, t2 time.Duration, tolerance time.Duration) bool { return math.Abs(float64(t1)-float64(t2)) < float64(tolerance) } func TestLimitedStreams(t *testing.T) { mn, err := FullMeshConnected(context.Background(), 2) if err != nil { t.Fatal(err) } var wg sync.WaitGroup messages := 4 messageSize := 500 handler := func(s inet.Stream) { b := make([]byte, messageSize) for i := 0; i < messages; i++ { if _, err := io.ReadFull(s, b); err != nil { log.Fatal(err) } if !bytes.Equal(b[:4], []byte("ping")) { log.Fatal("bytes mismatch") } wg.Done() } s.Close() } hosts := mn.Hosts() for _, h := range mn.Hosts() { h.SetStreamHandler(protocol.TestingID, handler) } peers := mn.Peers() links := mn.LinksBetweenPeers(peers[0], peers[1]) // 1000 byte per second bandwidth bps := float64(1000) opts := links[0].Options() opts.Bandwidth = bps for _, link := range links { link.SetOptions(opts) } s, err := hosts[0].NewStream(protocol.TestingID, hosts[1].ID()) if err != nil { t.Fatal(err) } filler := make([]byte, messageSize-4) data := append([]byte("ping"), filler...) before := time.Now() for i := 0; i < messages; i++ { wg.Add(1) if _, err := s.Write(data); err != nil { panic(err) } } wg.Wait() if !within(time.Since(before), time.Duration(time.Second*2), time.Second/3) { t.Fatal("Expected 2ish seconds but got ", time.Since(before)) } }