package proxy import ( "context" "fmt" "io" "net/http" "strconv" "github.com/pkg/errors" "github.com/rs/zerolog" "go.opentelemetry.io/otel/attribute" "go.opentelemetry.io/otel/trace" "github.com/cloudflare/cloudflared/carrier" "github.com/cloudflare/cloudflared/cfio" "github.com/cloudflare/cloudflared/connection" "github.com/cloudflare/cloudflared/ingress" "github.com/cloudflare/cloudflared/management" "github.com/cloudflare/cloudflared/stream" "github.com/cloudflare/cloudflared/tracing" tunnelpogs "github.com/cloudflare/cloudflared/tunnelrpc/pogs" ) const ( // TagHeaderNamePrefix indicates a Cloudflared Warp Tag prefix that gets appended for warp traffic stream headers. TagHeaderNamePrefix = "Cf-Warp-Tag-" LogFieldCFRay = "cfRay" LogFieldLBProbe = "lbProbe" LogFieldRule = "ingressRule" LogFieldOriginService = "originService" LogFieldFlowID = "flowID" LogFieldConnIndex = "connIndex" LogFieldDestAddr = "destAddr" trailerHeaderName = "Trailer" ) // Proxy represents a means to Proxy between cloudflared and the origin services. type Proxy struct { ingressRules ingress.Ingress warpRouting *ingress.WarpRoutingService management *ingress.ManagementService tags []tunnelpogs.Tag log *zerolog.Logger } // NewOriginProxy returns a new instance of the Proxy struct. func NewOriginProxy( ingressRules ingress.Ingress, warpRouting ingress.WarpRoutingConfig, tags []tunnelpogs.Tag, log *zerolog.Logger, ) *Proxy { proxy := &Proxy{ ingressRules: ingressRules, tags: tags, log: log, } if warpRouting.Enabled { proxy.warpRouting = ingress.NewWarpRoutingService(warpRouting) log.Info().Msgf("Warp-routing is enabled") } return proxy } func (p *Proxy) applyIngressMiddleware(rule *ingress.Rule, r *http.Request, w connection.ResponseWriter) (error, bool) { for _, handler := range rule.Handlers { result, err := handler.Handle(r.Context(), r) if err != nil { return errors.Wrap(err, fmt.Sprintf("error while processing middleware handler %s", handler.Name())), false } if result.ShouldFilterRequest { w.WriteRespHeaders(result.StatusCode, nil) return fmt.Errorf("request filtered by middleware handler (%s) due to: %s", handler.Name(), result.Reason), true } } return nil, true } // ProxyHTTP further depends on ingress rules to establish a connection with the origin service. This may be // a simple roundtrip or a tcp/websocket dial depending on ingres rule setup. func (p *Proxy) ProxyHTTP( w connection.ResponseWriter, tr *tracing.TracedHTTPRequest, isWebsocket bool, ) error { incrementRequests() defer decrementConcurrentRequests() req := tr.Request cfRay := connection.FindCfRayHeader(req) lbProbe := connection.IsLBProbeRequest(req) p.appendTagHeaders(req) _, ruleSpan := tr.Tracer().Start(req.Context(), "ingress_match", trace.WithAttributes(attribute.String("req-host", req.Host))) rule, ruleNum := p.ingressRules.FindMatchingRule(req.Host, req.URL.Path) logFields := logFields{ cfRay: cfRay, lbProbe: lbProbe, rule: ruleNum, connIndex: tr.ConnIndex, } p.logRequest(req, logFields) ruleSpan.SetAttributes(attribute.Int("rule-num", ruleNum)) ruleSpan.End() if err, applied := p.applyIngressMiddleware(rule, req, w); err != nil { if applied { rule, srv := ruleField(p.ingressRules, ruleNum) p.logRequestError(err, cfRay, "", rule, srv) return nil } return err } switch originProxy := rule.Service.(type) { case ingress.HTTPOriginProxy: if err := p.proxyHTTPRequest( w, tr, originProxy, isWebsocket, rule.Config.DisableChunkedEncoding, logFields, ); err != nil { rule, srv := ruleField(p.ingressRules, ruleNum) p.logRequestError(err, cfRay, "", rule, srv) return err } return nil case ingress.StreamBasedOriginProxy: dest, err := getDestFromRule(rule, req) if err != nil { return err } rws := connection.NewHTTPResponseReadWriterAcker(w, req) if err := p.proxyStream(tr.ToTracedContext(), rws, dest, originProxy); err != nil { rule, srv := ruleField(p.ingressRules, ruleNum) p.logRequestError(err, cfRay, "", rule, srv) return err } return nil case ingress.HTTPLocalProxy: p.proxyLocalRequest(originProxy, w, req, isWebsocket) return nil default: return fmt.Errorf("Unrecognized service: %s, %t", rule.Service, originProxy) } } // ProxyTCP proxies to a TCP connection between the origin service and cloudflared. func (p *Proxy) ProxyTCP( ctx context.Context, rwa connection.ReadWriteAcker, req *connection.TCPRequest, ) error { incrementRequests() defer decrementConcurrentRequests() if p.warpRouting == nil { err := errors.New(`cloudflared received a request from WARP client, but your configuration has disabled ingress from WARP clients. To enable this, set "warp-routing:\n\t enabled: true" in your config.yaml`) p.log.Error().Msg(err.Error()) return err } serveCtx, cancel := context.WithCancel(ctx) defer cancel() tracedCtx := tracing.NewTracedContext(serveCtx, req.CfTraceID, p.log) p.log.Debug(). Int(management.EventTypeKey, int(management.TCP)). Str(LogFieldFlowID, req.FlowID). Str(LogFieldDestAddr, req.Dest). Uint8(LogFieldConnIndex, req.ConnIndex). Msg("tcp proxy stream started") if err := p.proxyStream(tracedCtx, rwa, req.Dest, p.warpRouting.Proxy); err != nil { p.logRequestError(err, req.CFRay, req.FlowID, "", ingress.ServiceWarpRouting) return err } p.log.Debug(). Int(management.EventTypeKey, int(management.TCP)). Str(LogFieldFlowID, req.FlowID). Str(LogFieldDestAddr, req.Dest). Uint8(LogFieldConnIndex, req.ConnIndex). Msg("tcp proxy stream finished successfully") return nil } func ruleField(ing ingress.Ingress, ruleNum int) (ruleID string, srv string) { srv = ing.Rules[ruleNum].Service.String() if ing.IsSingleRule() { return "", srv } return fmt.Sprintf("%d", ruleNum), srv } // ProxyHTTPRequest proxies requests of underlying type http and websocket to the origin service. func (p *Proxy) proxyHTTPRequest( w connection.ResponseWriter, tr *tracing.TracedHTTPRequest, httpService ingress.HTTPOriginProxy, isWebsocket bool, disableChunkedEncoding bool, fields logFields, ) error { roundTripReq := tr.Request if isWebsocket { roundTripReq = tr.Clone(tr.Request.Context()) roundTripReq.Header.Set("Connection", "Upgrade") roundTripReq.Header.Set("Upgrade", "websocket") roundTripReq.Header.Set("Sec-Websocket-Version", "13") roundTripReq.ContentLength = 0 roundTripReq.Body = nil } else { // Support for WSGI Servers by switching transfer encoding from chunked to gzip/deflate if disableChunkedEncoding { roundTripReq.TransferEncoding = []string{"gzip", "deflate"} cLength, err := strconv.Atoi(tr.Request.Header.Get("Content-Length")) if err == nil { roundTripReq.ContentLength = int64(cLength) } } // Request origin to keep connection alive to improve performance roundTripReq.Header.Set("Connection", "keep-alive") } // Set the User-Agent as an empty string if not provided to avoid inserting golang default UA if roundTripReq.Header.Get("User-Agent") == "" { roundTripReq.Header.Set("User-Agent", "") } _, ttfbSpan := tr.Tracer().Start(tr.Context(), "ttfb_origin") resp, err := httpService.RoundTrip(roundTripReq) if err != nil { tracing.EndWithErrorStatus(ttfbSpan, err) if err := roundTripReq.Context().Err(); err != nil { return errors.Wrap(err, "Incoming request ended abruptly") } return errors.Wrap(err, "Unable to reach the origin service. The service may be down or it may not be responding to traffic from cloudflared") } tracing.EndWithStatusCode(ttfbSpan, resp.StatusCode) defer resp.Body.Close() headers := make(http.Header, len(resp.Header)) // copy headers for k, v := range resp.Header { headers[k] = v } // Add spans to response header (if available) tr.AddSpans(headers) err = w.WriteRespHeaders(resp.StatusCode, headers) if err != nil { return errors.Wrap(err, "Error writing response header") } if resp.StatusCode == http.StatusSwitchingProtocols { rwc, ok := resp.Body.(io.ReadWriteCloser) if !ok { return errors.New("internal error: unsupported connection type") } defer rwc.Close() eyeballStream := &bidirectionalStream{ writer: w, reader: tr.Request.Body, } stream.Pipe(eyeballStream, rwc, p.log) return nil } if _, err = cfio.Copy(w, resp.Body); err != nil { return err } // copy trailers copyTrailers(w, resp) p.logOriginResponse(resp, fields) return nil } // proxyStream proxies type TCP and other underlying types if the connection is defined as a stream oriented // ingress rule. func (p *Proxy) proxyStream( tr *tracing.TracedContext, rwa connection.ReadWriteAcker, dest string, connectionProxy ingress.StreamBasedOriginProxy, ) error { ctx := tr.Context _, connectSpan := tr.Tracer().Start(ctx, "stream-connect") originConn, err := connectionProxy.EstablishConnection(ctx, dest) if err != nil { tracing.EndWithErrorStatus(connectSpan, err) return err } connectSpan.End() defer originConn.Close() encodedSpans := tr.GetSpans() if err := rwa.AckConnection(encodedSpans); err != nil { return err } originConn.Stream(ctx, rwa, p.log) return nil } func (p *Proxy) proxyLocalRequest(proxy ingress.HTTPLocalProxy, w connection.ResponseWriter, req *http.Request, isWebsocket bool) { if isWebsocket { // These headers are added since they are stripped off during an eyeball request to origintunneld, but they // are required during the Handshake process of a WebSocket request. req.Header.Set("Connection", "Upgrade") req.Header.Set("Upgrade", "websocket") req.Header.Set("Sec-Websocket-Version", "13") } proxy.ServeHTTP(w, req) } type bidirectionalStream struct { reader io.Reader writer io.Writer } func (wr *bidirectionalStream) Read(p []byte) (n int, err error) { return wr.reader.Read(p) } func (wr *bidirectionalStream) Write(p []byte) (n int, err error) { return wr.writer.Write(p) } func (p *Proxy) appendTagHeaders(r *http.Request) { for _, tag := range p.tags { r.Header.Add(TagHeaderNamePrefix+tag.Name, tag.Value) } } type logFields struct { cfRay string lbProbe bool rule int flowID string connIndex uint8 } func copyTrailers(w connection.ResponseWriter, response *http.Response) { for trailerHeader, trailerValues := range response.Trailer { for _, trailerValue := range trailerValues { w.AddTrailer(trailerHeader, trailerValue) } } } func (p *Proxy) logRequest(r *http.Request, fields logFields) { log := p.log.With().Int(management.EventTypeKey, int(management.HTTP)).Logger() event := log.Debug() if fields.cfRay != "" { event = event.Str(LogFieldCFRay, fields.cfRay) } if fields.lbProbe { event = event.Bool(LogFieldLBProbe, fields.lbProbe) } if fields.cfRay == "" && !fields.lbProbe { log.Debug().Msgf("All requests should have a CF-RAY header. Please open a support ticket with Cloudflare. %s %s %s ", r.Method, r.URL, r.Proto) } event. Uint8(LogFieldConnIndex, fields.connIndex). Str("host", r.Host). Str("path", r.URL.Path). Interface(LogFieldRule, fields.rule). Interface("headers", r.Header). Int64("content-length", r.ContentLength). Msgf("%s %s %s", r.Method, r.URL, r.Proto) } func (p *Proxy) logOriginResponse(resp *http.Response, fields logFields) { responseByCode.WithLabelValues(strconv.Itoa(resp.StatusCode)).Inc() event := p.log.Debug() if fields.cfRay != "" { event = event.Str(LogFieldCFRay, fields.cfRay) } if fields.lbProbe { event = event.Bool(LogFieldLBProbe, fields.lbProbe) } event. Int(management.EventTypeKey, int(management.HTTP)). Uint8(LogFieldConnIndex, fields.connIndex). Int64("content-length", resp.ContentLength). Msgf("%s", resp.Status) } func (p *Proxy) logRequestError(err error, cfRay string, flowID string, rule, service string) { requestErrors.Inc() log := p.log.Error().Err(err) if cfRay != "" { log = log.Str(LogFieldCFRay, cfRay) } if flowID != "" { log = log.Str(LogFieldFlowID, flowID).Int(management.EventTypeKey, int(management.TCP)) } else { log = log.Int(management.EventTypeKey, int(management.HTTP)) } if rule != "" { log = log.Str(LogFieldRule, rule) } if service != "" { log = log.Str(LogFieldOriginService, service) } log.Send() } func getDestFromRule(rule *ingress.Rule, req *http.Request) (string, error) { switch rule.Service.String() { case ingress.ServiceBastion: return carrier.ResolveBastionDest(req) default: return rule.Service.String(), nil } }