// Copyright 2013 The Gorilla WebSocket Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package websocket import ( "bufio" "bytes" "errors" "fmt" "io" "io/ioutil" "net" "reflect" "sync" "testing" "testing/iotest" "time" ) var _ net.Error = errWriteTimeout type fakeNetConn struct { io.Reader io.Writer } func (c fakeNetConn) Close() error { return nil } func (c fakeNetConn) LocalAddr() net.Addr { return localAddr } func (c fakeNetConn) RemoteAddr() net.Addr { return remoteAddr } func (c fakeNetConn) SetDeadline(t time.Time) error { return nil } func (c fakeNetConn) SetReadDeadline(t time.Time) error { return nil } func (c fakeNetConn) SetWriteDeadline(t time.Time) error { return nil } type fakeAddr int var ( localAddr = fakeAddr(1) remoteAddr = fakeAddr(2) ) func (a fakeAddr) Network() string { return "net" } func (a fakeAddr) String() string { return "str" } // newTestConn creates a connnection backed by a fake network connection using // default values for buffering. func newTestConn(r io.Reader, w io.Writer, isServer bool) *Conn { return newConn(fakeNetConn{Reader: r, Writer: w}, isServer, 1024, 1024, nil, nil, nil) } func TestFraming(t *testing.T) { frameSizes := []int{0, 1, 2, 124, 125, 126, 127, 128, 129, 65534, 65535, 65536, 65537} var readChunkers = []struct { name string f func(io.Reader) io.Reader }{ {"half", iotest.HalfReader}, {"one", iotest.OneByteReader}, {"asis", func(r io.Reader) io.Reader { return r }}, } writeBuf := make([]byte, 65537) for i := range writeBuf { writeBuf[i] = byte(i) } var writers = []struct { name string f func(w io.Writer, n int) (int, error) }{ {"iocopy", func(w io.Writer, n int) (int, error) { nn, err := io.Copy(w, bytes.NewReader(writeBuf[:n])) return int(nn), err }}, {"write", func(w io.Writer, n int) (int, error) { return w.Write(writeBuf[:n]) }}, {"string", func(w io.Writer, n int) (int, error) { return io.WriteString(w, string(writeBuf[:n])) }}, } for _, compress := range []bool{false, true} { for _, isServer := range []bool{true, false} { for _, chunker := range readChunkers { var connBuf bytes.Buffer wc := newTestConn(nil, &connBuf, isServer) rc := newTestConn(chunker.f(&connBuf), nil, !isServer) if compress { wc.newCompressionWriter = compressNoContextTakeover rc.newDecompressionReader = decompressNoContextTakeover } for _, n := range frameSizes { for _, writer := range writers { name := fmt.Sprintf("z:%v, s:%v, r:%s, n:%d w:%s", compress, isServer, chunker.name, n, writer.name) w, err := wc.NextWriter(TextMessage) if err != nil { t.Errorf("%s: wc.NextWriter() returned %v", name, err) continue } nn, err := writer.f(w, n) if err != nil || nn != n { t.Errorf("%s: w.Write(writeBuf[:n]) returned %d, %v", name, nn, err) continue } err = w.Close() if err != nil { t.Errorf("%s: w.Close() returned %v", name, err) continue } opCode, r, err := rc.NextReader() if err != nil || opCode != TextMessage { t.Errorf("%s: NextReader() returned %d, r, %v", name, opCode, err) continue } rbuf, err := ioutil.ReadAll(r) if err != nil { t.Errorf("%s: ReadFull() returned rbuf, %v", name, err) continue } if len(rbuf) != n { t.Errorf("%s: len(rbuf) is %d, want %d", name, len(rbuf), n) continue } for i, b := range rbuf { if byte(i) != b { t.Errorf("%s: bad byte at offset %d", name, i) break } } } } } } } } func TestControl(t *testing.T) { const message = "this is a ping/pong messsage" for _, isServer := range []bool{true, false} { for _, isWriteControl := range []bool{true, false} { name := fmt.Sprintf("s:%v, wc:%v", isServer, isWriteControl) var connBuf bytes.Buffer wc := newTestConn(nil, &connBuf, isServer) rc := newTestConn(&connBuf, nil, !isServer) if isWriteControl { wc.WriteControl(PongMessage, []byte(message), time.Now().Add(time.Second)) } else { w, err := wc.NextWriter(PongMessage) if err != nil { t.Errorf("%s: wc.NextWriter() returned %v", name, err) continue } if _, err := w.Write([]byte(message)); err != nil { t.Errorf("%s: w.Write() returned %v", name, err) continue } if err := w.Close(); err != nil { t.Errorf("%s: w.Close() returned %v", name, err) continue } var actualMessage string rc.SetPongHandler(func(s string) error { actualMessage = s; return nil }) rc.NextReader() if actualMessage != message { t.Errorf("%s: pong=%q, want %q", name, actualMessage, message) continue } } } } } // simpleBufferPool is an implementation of BufferPool for TestWriteBufferPool. type simpleBufferPool struct { v interface{} } func (p *simpleBufferPool) Get() interface{} { v := p.v p.v = nil return v } func (p *simpleBufferPool) Put(v interface{}) { p.v = v } func TestWriteBufferPool(t *testing.T) { const message = "Now is the time for all good people to come to the aid of the party." var buf bytes.Buffer var pool simpleBufferPool rc := newTestConn(&buf, nil, false) // Specify writeBufferSize smaller than message size to ensure that pooling // works with fragmented messages. wc := newConn(fakeNetConn{Writer: &buf}, true, 1024, len(message)-1, &pool, nil, nil) if wc.writeBuf != nil { t.Fatal("writeBuf not nil after create") } // Part 1: test NextWriter/Write/Close w, err := wc.NextWriter(TextMessage) if err != nil { t.Fatalf("wc.NextWriter() returned %v", err) } if wc.writeBuf == nil { t.Fatal("writeBuf is nil after NextWriter") } writeBufAddr := &wc.writeBuf[0] if _, err := io.WriteString(w, message); err != nil { t.Fatalf("io.WriteString(w, message) returned %v", err) } if err := w.Close(); err != nil { t.Fatalf("w.Close() returned %v", err) } if wc.writeBuf != nil { t.Fatal("writeBuf not nil after w.Close()") } if wpd, ok := pool.v.(writePoolData); !ok || len(wpd.buf) == 0 || &wpd.buf[0] != writeBufAddr { t.Fatal("writeBuf not returned to pool") } opCode, p, err := rc.ReadMessage() if opCode != TextMessage || err != nil { t.Fatalf("ReadMessage() returned %d, p, %v", opCode, err) } if s := string(p); s != message { t.Fatalf("message is %s, want %s", s, message) } // Part 2: Test WriteMessage. if err := wc.WriteMessage(TextMessage, []byte(message)); err != nil { t.Fatalf("wc.WriteMessage() returned %v", err) } if wc.writeBuf != nil { t.Fatal("writeBuf not nil after wc.WriteMessage()") } if wpd, ok := pool.v.(writePoolData); !ok || len(wpd.buf) == 0 || &wpd.buf[0] != writeBufAddr { t.Fatal("writeBuf not returned to pool after WriteMessage") } opCode, p, err = rc.ReadMessage() if opCode != TextMessage || err != nil { t.Fatalf("ReadMessage() returned %d, p, %v", opCode, err) } if s := string(p); s != message { t.Fatalf("message is %s, want %s", s, message) } } // TestWriteBufferPoolSync ensures that *sync.Pool works as a buffer pool. func TestWriteBufferPoolSync(t *testing.T) { var buf bytes.Buffer var pool sync.Pool wc := newConn(fakeNetConn{Writer: &buf}, true, 1024, 1024, &pool, nil, nil) rc := newTestConn(&buf, nil, false) const message = "Hello World!" for i := 0; i < 3; i++ { if err := wc.WriteMessage(TextMessage, []byte(message)); err != nil { t.Fatalf("wc.WriteMessage() returned %v", err) } opCode, p, err := rc.ReadMessage() if opCode != TextMessage || err != nil { t.Fatalf("ReadMessage() returned %d, p, %v", opCode, err) } if s := string(p); s != message { t.Fatalf("message is %s, want %s", s, message) } } } // errorWriter is an io.Writer than returns an error on all writes. type errorWriter struct{} func (ew errorWriter) Write(p []byte) (int, error) { return 0, errors.New("Error!") } // TestWriteBufferPoolError ensures that buffer is returned to pool after error // on write. func TestWriteBufferPoolError(t *testing.T) { // Part 1: Test NextWriter/Write/Close var pool simpleBufferPool wc := newConn(fakeNetConn{Writer: errorWriter{}}, true, 1024, 1024, &pool, nil, nil) w, err := wc.NextWriter(TextMessage) if err != nil { t.Fatalf("wc.NextWriter() returned %v", err) } if wc.writeBuf == nil { t.Fatal("writeBuf is nil after NextWriter") } writeBufAddr := &wc.writeBuf[0] if _, err := io.WriteString(w, "Hello"); err != nil { t.Fatalf("io.WriteString(w, message) returned %v", err) } if err := w.Close(); err == nil { t.Fatalf("w.Close() did not return error") } if wpd, ok := pool.v.(writePoolData); !ok || len(wpd.buf) == 0 || &wpd.buf[0] != writeBufAddr { t.Fatal("writeBuf not returned to pool") } // Part 2: Test WriteMessage wc = newConn(fakeNetConn{Writer: errorWriter{}}, true, 1024, 1024, &pool, nil, nil) if err := wc.WriteMessage(TextMessage, []byte("Hello")); err == nil { t.Fatalf("wc.WriteMessage did not return error") } if wpd, ok := pool.v.(writePoolData); !ok || len(wpd.buf) == 0 || &wpd.buf[0] != writeBufAddr { t.Fatal("writeBuf not returned to pool") } } func TestCloseFrameBeforeFinalMessageFrame(t *testing.T) { const bufSize = 512 expectedErr := &CloseError{Code: CloseNormalClosure, Text: "hello"} var b1, b2 bytes.Buffer wc := newConn(&fakeNetConn{Reader: nil, Writer: &b1}, false, 1024, bufSize, nil, nil, nil) rc := newTestConn(&b1, &b2, true) w, _ := wc.NextWriter(BinaryMessage) w.Write(make([]byte, bufSize+bufSize/2)) wc.WriteControl(CloseMessage, FormatCloseMessage(expectedErr.Code, expectedErr.Text), time.Now().Add(10*time.Second)) w.Close() op, r, err := rc.NextReader() if op != BinaryMessage || err != nil { t.Fatalf("NextReader() returned %d, %v", op, err) } _, err = io.Copy(ioutil.Discard, r) if !reflect.DeepEqual(err, expectedErr) { t.Fatalf("io.Copy() returned %v, want %v", err, expectedErr) } _, _, err = rc.NextReader() if !reflect.DeepEqual(err, expectedErr) { t.Fatalf("NextReader() returned %v, want %v", err, expectedErr) } } func TestEOFWithinFrame(t *testing.T) { const bufSize = 64 for n := 0; ; n++ { var b bytes.Buffer wc := newTestConn(nil, &b, false) rc := newTestConn(&b, nil, true) w, _ := wc.NextWriter(BinaryMessage) w.Write(make([]byte, bufSize)) w.Close() if n >= b.Len() { break } b.Truncate(n) op, r, err := rc.NextReader() if err == errUnexpectedEOF { continue } if op != BinaryMessage || err != nil { t.Fatalf("%d: NextReader() returned %d, %v", n, op, err) } _, err = io.Copy(ioutil.Discard, r) if err != errUnexpectedEOF { t.Fatalf("%d: io.Copy() returned %v, want %v", n, err, errUnexpectedEOF) } _, _, err = rc.NextReader() if err != errUnexpectedEOF { t.Fatalf("%d: NextReader() returned %v, want %v", n, err, errUnexpectedEOF) } } } func TestEOFBeforeFinalFrame(t *testing.T) { const bufSize = 512 var b1, b2 bytes.Buffer wc := newConn(&fakeNetConn{Writer: &b1}, false, 1024, bufSize, nil, nil, nil) rc := newTestConn(&b1, &b2, true) w, _ := wc.NextWriter(BinaryMessage) w.Write(make([]byte, bufSize+bufSize/2)) op, r, err := rc.NextReader() if op != BinaryMessage || err != nil { t.Fatalf("NextReader() returned %d, %v", op, err) } _, err = io.Copy(ioutil.Discard, r) if err != errUnexpectedEOF { t.Fatalf("io.Copy() returned %v, want %v", err, errUnexpectedEOF) } _, _, err = rc.NextReader() if err != errUnexpectedEOF { t.Fatalf("NextReader() returned %v, want %v", err, errUnexpectedEOF) } } func TestWriteAfterMessageWriterClose(t *testing.T) { wc := newTestConn(nil, &bytes.Buffer{}, false) w, _ := wc.NextWriter(BinaryMessage) io.WriteString(w, "hello") if err := w.Close(); err != nil { t.Fatalf("unxpected error closing message writer, %v", err) } if _, err := io.WriteString(w, "world"); err == nil { t.Fatalf("no error writing after close") } w, _ = wc.NextWriter(BinaryMessage) io.WriteString(w, "hello") // close w by getting next writer _, err := wc.NextWriter(BinaryMessage) if err != nil { t.Fatalf("unexpected error getting next writer, %v", err) } if _, err := io.WriteString(w, "world"); err == nil { t.Fatalf("no error writing after close") } } func TestReadLimit(t *testing.T) { const readLimit = 512 message := make([]byte, readLimit+1) var b1, b2 bytes.Buffer wc := newConn(&fakeNetConn{Writer: &b1}, false, 1024, readLimit-2, nil, nil, nil) rc := newTestConn(&b1, &b2, true) rc.SetReadLimit(readLimit) // Send message at the limit with interleaved pong. w, _ := wc.NextWriter(BinaryMessage) w.Write(message[:readLimit-1]) wc.WriteControl(PongMessage, []byte("this is a pong"), time.Now().Add(10*time.Second)) w.Write(message[:1]) w.Close() // Send message larger than the limit. wc.WriteMessage(BinaryMessage, message[:readLimit+1]) op, _, err := rc.NextReader() if op != BinaryMessage || err != nil { t.Fatalf("1: NextReader() returned %d, %v", op, err) } op, r, err := rc.NextReader() if op != BinaryMessage || err != nil { t.Fatalf("2: NextReader() returned %d, %v", op, err) } _, err = io.Copy(ioutil.Discard, r) if err != ErrReadLimit { t.Fatalf("io.Copy() returned %v", err) } } func TestAddrs(t *testing.T) { c := newTestConn(nil, nil, true) if c.LocalAddr() != localAddr { t.Errorf("LocalAddr = %v, want %v", c.LocalAddr(), localAddr) } if c.RemoteAddr() != remoteAddr { t.Errorf("RemoteAddr = %v, want %v", c.RemoteAddr(), remoteAddr) } } func TestUnderlyingConn(t *testing.T) { var b1, b2 bytes.Buffer fc := fakeNetConn{Reader: &b1, Writer: &b2} c := newConn(fc, true, 1024, 1024, nil, nil, nil) ul := c.UnderlyingConn() if ul != fc { t.Fatalf("Underlying conn is not what it should be.") } } func TestBufioReadBytes(t *testing.T) { // Test calling bufio.ReadBytes for value longer than read buffer size. m := make([]byte, 512) m[len(m)-1] = '\n' var b1, b2 bytes.Buffer wc := newConn(fakeNetConn{Writer: &b1}, false, len(m)+64, len(m)+64, nil, nil, nil) rc := newConn(fakeNetConn{Reader: &b1, Writer: &b2}, true, len(m)-64, len(m)-64, nil, nil, nil) w, _ := wc.NextWriter(BinaryMessage) w.Write(m) w.Close() op, r, err := rc.NextReader() if op != BinaryMessage || err != nil { t.Fatalf("NextReader() returned %d, %v", op, err) } br := bufio.NewReader(r) p, err := br.ReadBytes('\n') if err != nil { t.Fatalf("ReadBytes() returned %v", err) } if len(p) != len(m) { t.Fatalf("read returned %d bytes, want %d bytes", len(p), len(m)) } } var closeErrorTests = []struct { err error codes []int ok bool }{ {&CloseError{Code: CloseNormalClosure}, []int{CloseNormalClosure}, true}, {&CloseError{Code: CloseNormalClosure}, []int{CloseNoStatusReceived}, false}, {&CloseError{Code: CloseNormalClosure}, []int{CloseNoStatusReceived, CloseNormalClosure}, true}, {errors.New("hello"), []int{CloseNormalClosure}, false}, } func TestCloseError(t *testing.T) { for _, tt := range closeErrorTests { ok := IsCloseError(tt.err, tt.codes...) if ok != tt.ok { t.Errorf("IsCloseError(%#v, %#v) returned %v, want %v", tt.err, tt.codes, ok, tt.ok) } } } var unexpectedCloseErrorTests = []struct { err error codes []int ok bool }{ {&CloseError{Code: CloseNormalClosure}, []int{CloseNormalClosure}, false}, {&CloseError{Code: CloseNormalClosure}, []int{CloseNoStatusReceived}, true}, {&CloseError{Code: CloseNormalClosure}, []int{CloseNoStatusReceived, CloseNormalClosure}, false}, {errors.New("hello"), []int{CloseNormalClosure}, false}, } func TestUnexpectedCloseErrors(t *testing.T) { for _, tt := range unexpectedCloseErrorTests { ok := IsUnexpectedCloseError(tt.err, tt.codes...) if ok != tt.ok { t.Errorf("IsUnexpectedCloseError(%#v, %#v) returned %v, want %v", tt.err, tt.codes, ok, tt.ok) } } } type blockingWriter struct { c1, c2 chan struct{} } func (w blockingWriter) Write(p []byte) (int, error) { // Allow main to continue close(w.c1) // Wait for panic in main <-w.c2 return len(p), nil } func TestConcurrentWritePanic(t *testing.T) { w := blockingWriter{make(chan struct{}), make(chan struct{})} c := newTestConn(nil, w, false) go func() { c.WriteMessage(TextMessage, []byte{}) }() // wait for goroutine to block in write. <-w.c1 defer func() { close(w.c2) if v := recover(); v != nil { return } }() c.WriteMessage(TextMessage, []byte{}) t.Fatal("should not get here") } type failingReader struct{} func (r failingReader) Read(p []byte) (int, error) { return 0, io.EOF } func TestFailedConnectionReadPanic(t *testing.T) { c := newTestConn(failingReader{}, nil, false) defer func() { if v := recover(); v != nil { return } }() for i := 0; i < 20000; i++ { c.ReadMessage() } t.Fatal("should not get here") }