package relay_test import ( "io" "testing" inet "github.com/ipfs/go-libp2p/p2p/net" protocol "github.com/ipfs/go-libp2p/p2p/protocol" relay "github.com/ipfs/go-libp2p/p2p/protocol/relay" testutil "github.com/ipfs/go-libp2p/p2p/test/util" logging "gx/ipfs/Qmazh5oNUVsDZTs2g59rq8aYQqwpss8tcUWQzor5sCCEuH/go-log" msmux "gx/ipfs/QmUeEcYJrzAEKdQXjzTxCgNZgc9sRuwharsvzzm5Gd2oGB/go-multistream" context "gx/ipfs/QmZy2y8t9zQH2a1b8q2ZSLKp17ATuJoCNxxyMFG5qFExpt/go-net/context" ) var log = logging.Logger("relay_test") func TestRelaySimple(t *testing.T) { ctx := context.Background() // these networks have the relay service wired in already. n1 := testutil.GenHostSwarm(t, ctx) n2 := testutil.GenHostSwarm(t, ctx) n3 := testutil.GenHostSwarm(t, ctx) n1p := n1.ID() n2p := n2.ID() n3p := n3.ID() n2pi := n2.Peerstore().PeerInfo(n2p) if err := n1.Connect(ctx, n2pi); err != nil { t.Fatal("Failed to connect:", err) } if err := n3.Connect(ctx, n2pi); err != nil { t.Fatal("Failed to connect:", err) } // setup handler on n3 to copy everything over to the pipe. piper, pipew := io.Pipe() n3.SetStreamHandler(protocol.TestingID, func(s inet.Stream) { log.Debug("relay stream opened to n3!") log.Debug("piping and echoing everything") w := io.MultiWriter(s, pipew) io.Copy(w, s) log.Debug("closing stream") s.Close() }) // ok, now we can try to relay n1--->n2--->n3. log.Debug("open relay stream") s, err := n1.NewStream(ctx, relay.ID, n2p) if err != nil { t.Fatal(err) } // ok first thing we write the relay header n1->n3 log.Debug("write relay header") if err := relay.WriteHeader(s, n1p, n3p); err != nil { t.Fatal(err) } // ok now the header's there, we can write the next protocol header. log.Debug("write testing header") if err := msmux.SelectProtoOrFail(string(protocol.TestingID), s); err != nil { t.Fatal(err) } // okay, now we should be able to write text, and read it out. buf1 := []byte("abcdefghij") buf2 := make([]byte, 10) buf3 := make([]byte, 10) log.Debug("write in some text.") if _, err := s.Write(buf1); err != nil { t.Fatal(err) } // read it out from the pipe. log.Debug("read it out from the pipe.") if _, err := io.ReadFull(piper, buf2); err != nil { t.Fatal(err) } if string(buf1) != string(buf2) { t.Fatal("should've gotten that text out of the pipe") } // read it out from the stream (echoed) log.Debug("read it out from the stream (echoed).") if _, err := io.ReadFull(s, buf3); err != nil { t.Fatal(err) } if string(buf1) != string(buf3) { t.Fatal("should've gotten that text out of the stream") } // sweet. relay works. log.Debug("sweet, relay works.") s.Close() } func TestRelayAcrossFour(t *testing.T) { ctx := context.Background() // these networks have the relay service wired in already. n1 := testutil.GenHostSwarm(t, ctx) n2 := testutil.GenHostSwarm(t, ctx) n3 := testutil.GenHostSwarm(t, ctx) n4 := testutil.GenHostSwarm(t, ctx) n5 := testutil.GenHostSwarm(t, ctx) n1p := n1.ID() n2p := n2.ID() n3p := n3.ID() n4p := n4.ID() n5p := n5.ID() n2pi := n2.Peerstore().PeerInfo(n2p) n4pi := n4.Peerstore().PeerInfo(n4p) if err := n1.Connect(ctx, n2pi); err != nil { t.Fatalf("Failed to dial:", err) } if err := n3.Connect(ctx, n2pi); err != nil { t.Fatalf("Failed to dial:", err) } if err := n3.Connect(ctx, n4pi); err != nil { t.Fatalf("Failed to dial:", err) } if err := n5.Connect(ctx, n4pi); err != nil { t.Fatalf("Failed to dial:", err) } // setup handler on n5 to copy everything over to the pipe. piper, pipew := io.Pipe() n5.SetStreamHandler(protocol.TestingID, func(s inet.Stream) { log.Debug("relay stream opened to n5!") log.Debug("piping and echoing everything") w := io.MultiWriter(s, pipew) io.Copy(w, s) log.Debug("closing stream") s.Close() }) // ok, now we can try to relay n1--->n2--->n3--->n4--->n5 log.Debug("open relay stream") s, err := n1.NewStream(ctx, relay.ID, n2p) if err != nil { t.Fatal(err) } log.Debugf("write relay header n1->n3 (%s -> %s)", n1p, n3p) if err := relay.WriteHeader(s, n1p, n3p); err != nil { t.Fatal(err) } log.Debugf("write relay header n1->n4 (%s -> %s)", n1p, n4p) if err := msmux.SelectProtoOrFail(string(relay.ID), s); err != nil { t.Fatal(err) } if err := relay.WriteHeader(s, n1p, n4p); err != nil { t.Fatal(err) } log.Debugf("write relay header n1->n5 (%s -> %s)", n1p, n5p) if err := msmux.SelectProtoOrFail(string(relay.ID), s); err != nil { t.Fatal(err) } if err := relay.WriteHeader(s, n1p, n5p); err != nil { t.Fatal(err) } // ok now the header's there, we can write the next protocol header. log.Debug("write testing header") if err := msmux.SelectProtoOrFail(string(protocol.TestingID), s); err != nil { t.Fatal(err) } // okay, now we should be able to write text, and read it out. buf1 := []byte("abcdefghij") buf2 := make([]byte, 10) buf3 := make([]byte, 10) log.Debug("write in some text.") if _, err := s.Write(buf1); err != nil { t.Fatal(err) } // read it out from the pipe. log.Debug("read it out from the pipe.") if _, err := io.ReadFull(piper, buf2); err != nil { t.Fatal(err) } if string(buf1) != string(buf2) { t.Fatal("should've gotten that text out of the pipe") } // read it out from the stream (echoed) log.Debug("read it out from the stream (echoed).") if _, err := io.ReadFull(s, buf3); err != nil { t.Fatal(err) } if string(buf1) != string(buf3) { t.Fatal("should've gotten that text out of the stream") } // sweet. relay works. log.Debug("sweet, relaying across 4 works.") s.Close() } func TestRelayStress(t *testing.T) { buflen := 1 << 18 iterations := 10 ctx := context.Background() // these networks have the relay service wired in already. n1 := testutil.GenHostSwarm(t, ctx) n2 := testutil.GenHostSwarm(t, ctx) n3 := testutil.GenHostSwarm(t, ctx) n1p := n1.ID() n2p := n2.ID() n3p := n3.ID() n2pi := n2.Peerstore().PeerInfo(n2p) if err := n1.Connect(ctx, n2pi); err != nil { t.Fatalf("Failed to dial:", err) } if err := n3.Connect(ctx, n2pi); err != nil { t.Fatalf("Failed to dial:", err) } // setup handler on n3 to copy everything over to the pipe. piper, pipew := io.Pipe() n3.SetStreamHandler(protocol.TestingID, func(s inet.Stream) { log.Debug("relay stream opened to n3!") log.Debug("piping and echoing everything") w := io.MultiWriter(s, pipew) io.Copy(w, s) log.Debug("closing stream") s.Close() }) // ok, now we can try to relay n1--->n2--->n3. log.Debug("open relay stream") s, err := n1.NewStream(ctx, relay.ID, n2p) if err != nil { t.Fatal(err) } // ok first thing we write the relay header n1->n3 log.Debug("write relay header") if err := relay.WriteHeader(s, n1p, n3p); err != nil { t.Fatal(err) } // ok now the header's there, we can write the next protocol header. log.Debug("write testing header") if err := msmux.SelectProtoOrFail(string(protocol.TestingID), s); err != nil { t.Fatal(err) } // okay, now write lots of text and read it back out from both // the pipe and the stream. buf1 := make([]byte, buflen) buf2 := make([]byte, len(buf1)) buf3 := make([]byte, len(buf1)) fillbuf := func(buf []byte, b byte) { for i := range buf { buf[i] = b } } for i := 0; i < iterations; i++ { fillbuf(buf1, byte(int('a')+i)) log.Debugf("writing %d bytes (%d/%d)", len(buf1), i, iterations) if _, err := s.Write(buf1); err != nil { t.Fatal(err) } log.Debug("read it out from the pipe.") if _, err := io.ReadFull(piper, buf2); err != nil { t.Fatal(err) } if string(buf1) != string(buf2) { t.Fatal("should've gotten that text out of the pipe") } // read it out from the stream (echoed) log.Debug("read it out from the stream (echoed).") if _, err := io.ReadFull(s, buf3); err != nil { t.Fatal(err) } if string(buf1) != string(buf3) { t.Fatal("should've gotten that text out of the stream") } } log.Debug("sweet, relay works under stress.") s.Close() }