// Copyright 2015 Matthew Holt and The Caddy Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Most of the code in this file was initially borrowed from the Go // standard library and modified; It had this copyright notice: // Copyright 2011 The Go Authors package reverseproxy import ( "context" "errors" "fmt" "io" weakrand "math/rand" "mime" "net/http" "sync" "time" "unsafe" "go.uber.org/zap" "golang.org/x/net/http/httpguts" ) func (h *Handler) handleUpgradeResponse(logger *zap.Logger, rw http.ResponseWriter, req *http.Request, res *http.Response) { reqUpType := upgradeType(req.Header) resUpType := upgradeType(res.Header) // Taken from https://github.com/golang/go/commit/5c489514bc5e61ad9b5b07bd7d8ec65d66a0512a // We know reqUpType is ASCII, it's checked by the caller. if !asciiIsPrint(resUpType) { logger.Debug("backend tried to switch to invalid protocol", zap.String("backend_upgrade", resUpType)) return } if !asciiEqualFold(reqUpType, resUpType) { logger.Debug("backend tried to switch to unexpected protocol via Upgrade header", zap.String("backend_upgrade", resUpType), zap.String("requested_upgrade", reqUpType)) return } backConn, ok := res.Body.(io.ReadWriteCloser) if !ok { logger.Error("internal error: 101 switching protocols response with non-writable body") return } // write header first, response headers should not be counted in size // like the rest of handler chain. copyHeader(rw.Header(), res.Header) rw.WriteHeader(res.StatusCode) logger.Debug("upgrading connection") //nolint:bodyclose conn, brw, hijackErr := http.NewResponseController(rw).Hijack() if errors.Is(hijackErr, http.ErrNotSupported) { h.logger.Sugar().Errorf("can't switch protocols using non-Hijacker ResponseWriter type %T", rw) return } if hijackErr != nil { h.logger.Error("hijack failed on protocol switch", zap.Error(hijackErr)) return } // adopted from https://github.com/golang/go/commit/8bcf2834afdf6a1f7937390903a41518715ef6f5 backConnCloseCh := make(chan struct{}) go func() { // Ensure that the cancelation of a request closes the backend. // See issue https://golang.org/issue/35559. select { case <-req.Context().Done(): case <-backConnCloseCh: } backConn.Close() }() defer close(backConnCloseCh) start := time.Now() defer func() { conn.Close() logger.Debug("connection closed", zap.Duration("duration", time.Since(start))) }() if err := brw.Flush(); err != nil { logger.Debug("response flush", zap.Error(err)) return } // Ensure the hijacked client connection, and the new connection established // with the backend, are both closed in the event of a server shutdown. This // is done by registering them. We also try to gracefully close connections // we recognize as websockets. // We need to make sure the client connection messages (i.e. to upstream) // are masked, so we need to know whether the connection is considered the // server or the client side of the proxy. gracefulClose := func(conn io.ReadWriteCloser, isClient bool) func() error { if isWebsocket(req) { return func() error { return writeCloseControl(conn, isClient) } } return nil } deleteFrontConn := h.registerConnection(conn, gracefulClose(conn, false)) deleteBackConn := h.registerConnection(backConn, gracefulClose(backConn, true)) defer deleteFrontConn() defer deleteBackConn() spc := switchProtocolCopier{user: conn, backend: backConn} // setup the timeout if requested var timeoutc <-chan time.Time if h.StreamTimeout > 0 { timer := time.NewTimer(time.Duration(h.StreamTimeout)) defer timer.Stop() timeoutc = timer.C } errc := make(chan error, 1) go spc.copyToBackend(errc) go spc.copyFromBackend(errc) select { case err := <-errc: logger.Debug("streaming error", zap.Error(err)) case time := <-timeoutc: logger.Debug("stream timed out", zap.Time("timeout", time)) } } // flushInterval returns the p.FlushInterval value, conditionally // overriding its value for a specific request/response. func (h Handler) flushInterval(req *http.Request, res *http.Response) time.Duration { resCTHeader := res.Header.Get("Content-Type") resCT, _, err := mime.ParseMediaType(resCTHeader) // For Server-Sent Events responses, flush immediately. // The MIME type is defined in https://www.w3.org/TR/eventsource/#text-event-stream if err == nil && resCT == "text/event-stream" { return -1 // negative means immediately } // We might have the case of streaming for which Content-Length might be unset. if res.ContentLength == -1 { return -1 } // for h2 and h2c upstream streaming data to client (issues #3556 and #3606) if h.isBidirectionalStream(req, res) { return -1 } return time.Duration(h.FlushInterval) } // isBidirectionalStream returns whether we should work in bi-directional stream mode. // // See https://github.com/caddyserver/caddy/pull/3620 for discussion of nuances. func (h Handler) isBidirectionalStream(req *http.Request, res *http.Response) bool { // We have to check the encoding here; only flush headers with identity encoding. // Non-identity encoding might combine with "encode" directive, and in that case, // if body size larger than enc.MinLength, upper level encode handle might have // Content-Encoding header to write. // (see https://github.com/caddyserver/caddy/issues/3606 for use case) ae := req.Header.Get("Accept-Encoding") return req.ProtoMajor == 2 && res.ProtoMajor == 2 && res.ContentLength == -1 && (ae == "identity" || ae == "") } func (h Handler) copyResponse(dst http.ResponseWriter, src io.Reader, flushInterval time.Duration) error { var w io.Writer = dst if flushInterval != 0 { mlw := &maxLatencyWriter{ dst: dst, //nolint:bodyclose flush: http.NewResponseController(dst).Flush, latency: flushInterval, } defer mlw.stop() // set up initial timer so headers get flushed even if body writes are delayed mlw.flushPending = true mlw.t = time.AfterFunc(flushInterval, mlw.delayedFlush) w = mlw } buf := streamingBufPool.Get().(*[]byte) defer streamingBufPool.Put(buf) _, err := h.copyBuffer(w, src, *buf) return err } // copyBuffer returns any write errors or non-EOF read errors, and the amount // of bytes written. func (h Handler) copyBuffer(dst io.Writer, src io.Reader, buf []byte) (int64, error) { if len(buf) == 0 { buf = make([]byte, defaultBufferSize) } var written int64 for { nr, rerr := src.Read(buf) if rerr != nil && rerr != io.EOF && rerr != context.Canceled { // TODO: this could be useful to know (indeed, it revealed an error in our // fastcgi PoC earlier; but it's this single error report here that necessitates // a function separate from io.CopyBuffer, since io.CopyBuffer does not distinguish // between read or write errors; in a reverse proxy situation, write errors are not // something we need to report to the client, but read errors are a problem on our // end for sure. so we need to decide what we want.) // p.logf("copyBuffer: ReverseProxy read error during body copy: %v", rerr) h.logger.Error("reading from backend", zap.Error(rerr)) } if nr > 0 { nw, werr := dst.Write(buf[:nr]) if nw > 0 { written += int64(nw) } if werr != nil { return written, fmt.Errorf("writing: %w", werr) } if nr != nw { return written, io.ErrShortWrite } } if rerr != nil { if rerr == io.EOF { return written, nil } return written, fmt.Errorf("reading: %w", rerr) } } } // registerConnection holds onto conn so it can be closed in the event // of a server shutdown. This is useful because hijacked connections or // connections dialed to backends don't close when server is shut down. // The caller should call the returned delete() function when the // connection is done to remove it from memory. func (h *Handler) registerConnection(conn io.ReadWriteCloser, gracefulClose func() error) (del func()) { h.connectionsMu.Lock() h.connections[conn] = openConnection{conn, gracefulClose} h.connectionsMu.Unlock() return func() { h.connectionsMu.Lock() delete(h.connections, conn) // if there is no connection left before the connections close timer fires if len(h.connections) == 0 && h.connectionsCloseTimer != nil { // we release the timer that holds the reference to Handler if (*h.connectionsCloseTimer).Stop() { h.logger.Debug("stopped streaming connections close timer - all connections are already closed") } h.connectionsCloseTimer = nil } h.connectionsMu.Unlock() } } // closeConnections immediately closes all hijacked connections (both to client and backend). func (h *Handler) closeConnections() error { var err error h.connectionsMu.Lock() defer h.connectionsMu.Unlock() for _, oc := range h.connections { if oc.gracefulClose != nil { // this is potentially blocking while we have the lock on the connections // map, but that should be OK since the server has in theory shut down // and we are no longer using the connections map gracefulErr := oc.gracefulClose() if gracefulErr != nil && err == nil { err = gracefulErr } } closeErr := oc.conn.Close() if closeErr != nil && err == nil { err = closeErr } } return err } // cleanupConnections closes hijacked connections. // Depending on the value of StreamCloseDelay it does that either immediately // or sets up a timer that will do that later. func (h *Handler) cleanupConnections() error { if h.StreamCloseDelay == 0 { return h.closeConnections() } h.connectionsMu.Lock() defer h.connectionsMu.Unlock() // the handler is shut down, no new connection can appear, // so we can skip setting up the timer when there are no connections if len(h.connections) > 0 { delay := time.Duration(h.StreamCloseDelay) h.connectionsCloseTimer = time.AfterFunc(delay, func() { h.logger.Debug("closing streaming connections after delay", zap.Duration("delay", delay)) err := h.closeConnections() if err != nil { h.logger.Error("failed to closed connections after delay", zap.Error(err), zap.Duration("delay", delay)) } }) } return nil } // writeCloseControl sends a best-effort Close control message to the given // WebSocket connection. Thanks to @pascaldekloe who provided inspiration // from his simple implementation of this I was able to learn from at: // github.com/pascaldekloe/websocket. Further work for handling masking // taken from github.com/gorilla/websocket. func writeCloseControl(conn io.Writer, isClient bool) error { // Sources: // https://github.com/pascaldekloe/websocket/blob/32050af67a5d/websocket.go#L119 // https://github.com/gorilla/websocket/blob/v1.5.0/conn.go#L413 // For now, we're not using a reason. We might later, though. // The code handling the reason is left in var reason string // max 123 bytes (control frame payload limit is 125; status code takes 2) const closeMessage = 8 const finalBit = 1 << 7 // Frame header byte 0 bits from Section 5.2 of RFC 6455 const maskBit = 1 << 7 // Frame header byte 1 bits from Section 5.2 of RFC 6455 const goingAwayUpper uint8 = 1001 >> 8 const goingAwayLower uint8 = 1001 & 0xff b0 := byte(closeMessage) | finalBit b1 := byte(len(reason) + 2) if isClient { b1 |= maskBit } buf := make([]byte, 0, 127) buf = append(buf, b0, b1) msgLength := 4 + len(reason) // Both branches below append the "going away" code and reason appendMessage := func(buf []byte) []byte { buf = append(buf, goingAwayUpper, goingAwayLower) buf = append(buf, []byte(reason)...) return buf } // When we're the client, we need to mask the message as per // https://www.rfc-editor.org/rfc/rfc6455#section-5.3 if isClient { key := newMaskKey() buf = append(buf, key[:]...) msgLength += len(key) buf = appendMessage(buf) maskBytes(key, 0, buf[2+len(key):]) } else { buf = appendMessage(buf) } // simply best-effort, but return error for logging purposes // TODO: we might need to ensure we are the exclusive writer by this point (io.Copy is stopped)? _, err := conn.Write(buf[:msgLength]) return err } // Copied from https://github.com/gorilla/websocket/blob/v1.5.0/mask.go func maskBytes(key [4]byte, pos int, b []byte) int { // Mask one byte at a time for small buffers. if len(b) < 2*wordSize { for i := range b { b[i] ^= key[pos&3] pos++ } return pos & 3 } // Mask one byte at a time to word boundary. if n := int(uintptr(unsafe.Pointer(&b[0]))) % wordSize; n != 0 { n = wordSize - n for i := range b[:n] { b[i] ^= key[pos&3] pos++ } b = b[n:] } // Create aligned word size key. var k [wordSize]byte for i := range k { k[i] = key[(pos+i)&3] } kw := *(*uintptr)(unsafe.Pointer(&k)) // Mask one word at a time. n := (len(b) / wordSize) * wordSize for i := 0; i < n; i += wordSize { *(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&b[0])) + uintptr(i))) ^= kw } // Mask one byte at a time for remaining bytes. b = b[n:] for i := range b { b[i] ^= key[pos&3] pos++ } return pos & 3 } // Copied from https://github.com/gorilla/websocket/blob/v1.5.0/conn.go#L184 func newMaskKey() [4]byte { n := weakrand.Uint32() return [4]byte{byte(n), byte(n >> 8), byte(n >> 16), byte(n >> 24)} } // isWebsocket returns true if r looks to be an upgrade request for WebSockets. // It is a fairly naive check. func isWebsocket(r *http.Request) bool { return httpguts.HeaderValuesContainsToken(r.Header["Connection"], "upgrade") && httpguts.HeaderValuesContainsToken(r.Header["Upgrade"], "websocket") } // openConnection maps an open connection to // an optional function for graceful close. type openConnection struct { conn io.ReadWriteCloser gracefulClose func() error } type maxLatencyWriter struct { dst io.Writer flush func() error latency time.Duration // non-zero; negative means to flush immediately mu sync.Mutex // protects t, flushPending, and dst.Flush t *time.Timer flushPending bool } func (m *maxLatencyWriter) Write(p []byte) (n int, err error) { m.mu.Lock() defer m.mu.Unlock() n, err = m.dst.Write(p) if m.latency < 0 { //nolint:errcheck m.flush() return } if m.flushPending { return } if m.t == nil { m.t = time.AfterFunc(m.latency, m.delayedFlush) } else { m.t.Reset(m.latency) } m.flushPending = true return } func (m *maxLatencyWriter) delayedFlush() { m.mu.Lock() defer m.mu.Unlock() if !m.flushPending { // if stop was called but AfterFunc already started this goroutine return } //nolint:errcheck m.flush() m.flushPending = false } func (m *maxLatencyWriter) stop() { m.mu.Lock() defer m.mu.Unlock() m.flushPending = false if m.t != nil { m.t.Stop() } } // switchProtocolCopier exists so goroutines proxying data back and // forth have nice names in stacks. type switchProtocolCopier struct { user, backend io.ReadWriteCloser } func (c switchProtocolCopier) copyFromBackend(errc chan<- error) { _, err := io.Copy(c.user, c.backend) errc <- err } func (c switchProtocolCopier) copyToBackend(errc chan<- error) { _, err := io.Copy(c.backend, c.user) errc <- err } var streamingBufPool = sync.Pool{ New: func() any { // The Pool's New function should generally only return pointer // types, since a pointer can be put into the return interface // value without an allocation // - (from the package docs) b := make([]byte, defaultBufferSize) return &b }, } const ( defaultBufferSize = 32 * 1024 wordSize = int(unsafe.Sizeof(uintptr(0))) )