cloudflared-mirror/connection/http2.go

304 lines
8.2 KiB
Go

package connection
import (
"context"
"fmt"
"io"
"net"
"net/http"
"runtime/debug"
"strings"
"sync"
"github.com/pkg/errors"
"github.com/rs/zerolog"
"golang.org/x/net/http2"
tunnelpogs "github.com/cloudflare/cloudflared/tunnelrpc/pogs"
)
// note: these constants are exported so we can reuse them in the edge-side code
const (
InternalUpgradeHeader = "Cf-Cloudflared-Proxy-Connection-Upgrade"
InternalTCPProxySrcHeader = "Cf-Cloudflared-Proxy-Src"
WebsocketUpgrade = "websocket"
ControlStreamUpgrade = "control-stream"
)
var errEdgeConnectionClosed = fmt.Errorf("connection with edge closed")
// HTTP2Connection represents a net.Conn that uses HTTP2 frames to proxy traffic from the edge to cloudflared on the
// origin.
type HTTP2Connection struct {
conn net.Conn
server *http2.Server
config *Config
connOptions *tunnelpogs.ConnectionOptions
observer *Observer
connIndex uint8
// newRPCClientFunc allows us to mock RPCs during testing
newRPCClientFunc func(context.Context, io.ReadWriteCloser, *zerolog.Logger) NamedTunnelRPCClient
log *zerolog.Logger
activeRequestsWG sync.WaitGroup
controlStreamHandler ControlStreamHandler
stoppedGracefully bool
controlStreamErr error // result of running control stream handler
}
// NewHTTP2Connection returns a new instance of HTTP2Connection.
func NewHTTP2Connection(
conn net.Conn,
config *Config,
connOptions *tunnelpogs.ConnectionOptions,
observer *Observer,
connIndex uint8,
controlStreamHandler ControlStreamHandler,
log *zerolog.Logger,
) *HTTP2Connection {
return &HTTP2Connection{
conn: conn,
server: &http2.Server{
MaxConcurrentStreams: MaxConcurrentStreams,
},
config: config,
connOptions: connOptions,
observer: observer,
connIndex: connIndex,
newRPCClientFunc: newRegistrationRPCClient,
controlStreamHandler: controlStreamHandler,
log: log,
}
}
// Serve serves an HTTP2 server that the edge can talk to.
func (c *HTTP2Connection) Serve(ctx context.Context) error {
go func() {
<-ctx.Done()
c.close()
}()
c.server.ServeConn(c.conn, &http2.ServeConnOpts{
Context: ctx,
Handler: c,
})
switch {
case c.controlStreamHandler.IsStopped():
return nil
case c.controlStreamErr != nil:
return c.controlStreamErr
default:
c.observer.log.Info().Uint8(LogFieldConnIndex, c.connIndex).Msg("Lost connection with the edge")
return errEdgeConnectionClosed
}
}
func (c *HTTP2Connection) ServeHTTP(w http.ResponseWriter, r *http.Request) {
c.activeRequestsWG.Add(1)
defer c.activeRequestsWG.Done()
connType := determineHTTP2Type(r)
handleMissingRequestParts(connType, r)
respWriter, err := NewHTTP2RespWriter(r, w, connType)
if err != nil {
c.observer.log.Error().Msg(err.Error())
return
}
switch connType {
case TypeControlStream:
if err := c.controlStreamHandler.ServeControlStream(r.Context(), respWriter, c.connOptions); err != nil {
c.controlStreamErr = err
c.log.Error().Err(err)
respWriter.WriteErrorResponse()
}
case TypeWebsocket, TypeHTTP:
stripWebsocketUpgradeHeader(r)
if err := c.config.OriginProxy.ProxyHTTP(respWriter, r, connType == TypeWebsocket); err != nil {
err := fmt.Errorf("Failed to proxy HTTP: %w", err)
c.log.Error().Err(err)
respWriter.WriteErrorResponse()
}
case TypeTCP:
host, err := getRequestHost(r)
if err != nil {
err := fmt.Errorf(`cloudflared received a warp-routing request with an empty host value: %w`, err)
c.log.Error().Err(err)
respWriter.WriteErrorResponse()
}
rws := NewHTTPResponseReadWriterAcker(respWriter, r)
if err := c.config.OriginProxy.ProxyTCP(r.Context(), rws, &TCPRequest{
Dest: host,
CFRay: FindCfRayHeader(r),
LBProbe: IsLBProbeRequest(r),
}); err != nil {
respWriter.WriteErrorResponse()
}
default:
err := fmt.Errorf("Received unknown connection type: %s", connType)
c.log.Error().Err(err)
respWriter.WriteErrorResponse()
}
}
func (c *HTTP2Connection) close() {
// Wait for all serve HTTP handlers to return
c.activeRequestsWG.Wait()
c.conn.Close()
}
type http2RespWriter struct {
r io.Reader
w http.ResponseWriter
flusher http.Flusher
shouldFlush bool
}
func NewHTTP2RespWriter(r *http.Request, w http.ResponseWriter, connType Type) (*http2RespWriter, error) {
flusher, isFlusher := w.(http.Flusher)
if !isFlusher {
respWriter := &http2RespWriter{
r: r.Body,
w: w,
}
respWriter.WriteErrorResponse()
return nil, fmt.Errorf("%T doesn't implement http.Flusher", w)
}
return &http2RespWriter{
r: r.Body,
w: w,
flusher: flusher,
shouldFlush: connType.shouldFlush(),
}, nil
}
func (rp *http2RespWriter) WriteRespHeaders(status int, header http.Header) error {
dest := rp.w.Header()
userHeaders := make(http.Header, len(header))
for name, values := range header {
// Since these are http2 headers, they're required to be lowercase
h2name := strings.ToLower(name)
if h2name == "content-length" {
// This header has meaning in HTTP/2 and will be used by the edge,
// so it should be sent *also* as an HTTP/2 response header.
dest[name] = values
}
if !IsControlResponseHeader(h2name) || IsWebsocketClientHeader(h2name) {
// User headers, on the other hand, must all be serialized so that
// HTTP/2 header validation won't be applied to HTTP/1 header values
userHeaders[name] = values
}
}
// Perform user header serialization and set them in the single header
dest.Set(CanonicalResponseUserHeaders, SerializeHeaders(userHeaders))
rp.setResponseMetaHeader(responseMetaHeaderOrigin)
// HTTP2 removes support for 101 Switching Protocols https://tools.ietf.org/html/rfc7540#section-8.1.1
if status == http.StatusSwitchingProtocols {
status = http.StatusOK
}
rp.w.WriteHeader(status)
if IsServerSentEvent(header) {
rp.shouldFlush = true
}
if rp.shouldFlush {
rp.flusher.Flush()
}
return nil
}
func (rp *http2RespWriter) WriteErrorResponse() {
rp.setResponseMetaHeader(responseMetaHeaderCfd)
rp.w.WriteHeader(http.StatusBadGateway)
}
func (rp *http2RespWriter) setResponseMetaHeader(value string) {
rp.w.Header().Set(CanonicalResponseMetaHeader, value)
}
func (rp *http2RespWriter) Read(p []byte) (n int, err error) {
return rp.r.Read(p)
}
func (rp *http2RespWriter) Write(p []byte) (n int, err error) {
defer func() {
// Implementer of OriginClient should make sure it doesn't write to the connection after Proxy returns
// Register a recover routine just in case.
if r := recover(); r != nil {
println(fmt.Sprintf("Recover from http2 response writer panic, error %s", debug.Stack()))
}
}()
n, err = rp.w.Write(p)
if err == nil && rp.shouldFlush {
rp.flusher.Flush()
}
return n, err
}
func (rp *http2RespWriter) Close() error {
return nil
}
func determineHTTP2Type(r *http.Request) Type {
switch {
case isWebsocketUpgrade(r):
return TypeWebsocket
case IsTCPStream(r):
return TypeTCP
case isControlStreamUpgrade(r):
return TypeControlStream
default:
return TypeHTTP
}
}
func handleMissingRequestParts(connType Type, r *http.Request) {
if connType == TypeHTTP {
// http library has no guarantees that we receive a filled URL. If not, then we fill it, as we reuse the request
// for proxying. We use the same values as we used to in h2mux. For proxying they should not matter since we
// control the dialer on every egress proxied.
if len(r.URL.Scheme) == 0 {
r.URL.Scheme = "http"
}
if len(r.URL.Host) == 0 {
r.URL.Host = "localhost:8080"
}
}
}
func isControlStreamUpgrade(r *http.Request) bool {
return r.Header.Get(InternalUpgradeHeader) == ControlStreamUpgrade
}
func isWebsocketUpgrade(r *http.Request) bool {
return r.Header.Get(InternalUpgradeHeader) == WebsocketUpgrade
}
// IsTCPStream discerns if the connection request needs a tcp stream proxy.
func IsTCPStream(r *http.Request) bool {
return r.Header.Get(InternalTCPProxySrcHeader) != ""
}
func stripWebsocketUpgradeHeader(r *http.Request) {
r.Header.Del(InternalUpgradeHeader)
}
// getRequestHost returns the host of the http.Request.
func getRequestHost(r *http.Request) (string, error) {
if r.Host != "" {
return r.Host, nil
}
if r.URL != nil {
return r.URL.Host, nil
}
return "", errors.New("host not set in incoming request")
}