package multiplex import ( "github.com/cbeuw/Cloak/internal/util" "math/rand" "net" "testing" "time" ) func TestSwitchboard_Send(t *testing.T) { getHole := func() net.Conn { l, _ := net.Listen("tcp", "127.0.0.1:0") go func() { net.Dial("tcp", l.Addr().String()) }() hole, _ := l.Accept() return hole } doTest := func(seshConfig *SessionConfig) { sesh := MakeSession(0, seshConfig) hole0 := getHole() sesh.sb.addConn(hole0) connId, err := sesh.sb.assignRandomConn() if err != nil { t.Error("failed to get a random conn", err) return } data := make([]byte, 1000) rand.Read(data) _, err = sesh.sb.send(data, &connId) if err != nil { t.Error(err) return } hole1 := getHole() sesh.sb.addConn(hole1) connId, err = sesh.sb.assignRandomConn() if err != nil { t.Error("failed to get a random conn", err) return } _, err = sesh.sb.send(data, &connId) if err != nil { t.Error(err) return } connId, err = sesh.sb.assignRandomConn() if err != nil { t.Error("failed to get a random conn", err) return } _, err = sesh.sb.send(data, &connId) if err != nil { t.Error(err) return } } t.Run("Ordered", func(t *testing.T) { seshConfig := &SessionConfig{ Obfuscator: nil, Valve: nil, UnitRead: util.ReadTLS, Unordered: false, } doTest(seshConfig) }) t.Run("Unordered", func(t *testing.T) { seshConfig := &SessionConfig{ Obfuscator: nil, Valve: nil, UnitRead: util.ReadTLS, Unordered: true, } doTest(seshConfig) }) } func BenchmarkSwitchboard_Send(b *testing.B) { hole := newBlackHole() seshConfig := &SessionConfig{ Obfuscator: nil, Valve: nil, UnitRead: util.ReadTLS, } sesh := MakeSession(0, seshConfig) sesh.sb.addConn(hole) connId, err := sesh.sb.assignRandomConn() if err != nil { b.Error("failed to get a random conn", err) return } data := make([]byte, 1000) rand.Read(data) b.ResetTimer() for i := 0; i < b.N; i++ { n, err := sesh.sb.send(data, &connId) if err != nil { b.Error(err) return } b.SetBytes(int64(n)) } } func TestSwitchboard_TxCredit(t *testing.T) { seshConfig := &SessionConfig{ Obfuscator: nil, Valve: MakeValve(1<<20, 1<<20), UnitRead: util.ReadTLS, } sesh := MakeSession(0, seshConfig) hole := newBlackHole() sesh.sb.addConn(hole) connId, err := sesh.sb.assignRandomConn() if err != nil { t.Error("failed to get a random conn", err) return } data := make([]byte, 1000) rand.Read(data) t.Run("FIXED CONN MAPPING", func(t *testing.T) { *sesh.sb.Valve.(*LimitedValve).tx = 0 sesh.sb.strategy = FIXED_CONN_MAPPING n, err := sesh.sb.send(data[:10], &connId) if err != nil { t.Error(err) return } if n != 10 { t.Errorf("wanted to send %v, got %v", 10, n) return } if *sesh.sb.Valve.(*LimitedValve).tx != 10 { t.Error("tx credit didn't increase by 10") } }) t.Run("UNIFORM", func(t *testing.T) { *sesh.sb.Valve.(*LimitedValve).tx = 0 sesh.sb.strategy = UNIFORM_SPREAD n, err := sesh.sb.send(data[:10], &connId) if err != nil { t.Error(err) return } if n != 10 { t.Errorf("wanted to send %v, got %v", 10, n) return } if *sesh.sb.Valve.(*LimitedValve).tx != 10 { t.Error("tx credit didn't increase by 10") } }) } func TestSwitchboard_CloseOnOneDisconn(t *testing.T) { sesh := setupSesh(false) l, _ := net.Listen("tcp", "127.0.0.1:0") addRemoteConn := func(close chan struct{}) { conn, _ := net.Dial("tcp", l.Addr().String()) for { conn.Write([]byte{0x00}) <-close conn.Close() } } close0 := make(chan struct{}) go addRemoteConn(close0) conn0, _ := l.Accept() sesh.AddConnection(conn0) close1 := make(chan struct{}) go addRemoteConn(close1) conn1, _ := l.Accept() sesh.AddConnection(conn1) close0 <- struct{}{} time.Sleep(100 * time.Millisecond) if !sesh.IsClosed() { t.Error("session not closed after one conn is disconnected") return } if _, err := conn1.Write([]byte{0x00}); err == nil { t.Error("the other conn is still connected") return } }