442 lines
13 KiB
Go
442 lines
13 KiB
Go
package tcp
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import (
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"bufio"
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"bytes"
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"crypto/tls"
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"errors"
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"io"
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"net"
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"net/http"
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"slices"
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"time"
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"github.com/go-acme/lego/v4/challenge/tlsalpn01"
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"github.com/rs/zerolog/log"
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tcpmuxer "github.com/traefik/traefik/v3/pkg/muxer/tcp"
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"github.com/traefik/traefik/v3/pkg/tcp"
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)
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const defaultBufSize = 4096
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// Router is a TCP router.
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type Router struct {
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// Contains TCP routes.
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muxerTCP tcpmuxer.Muxer
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// Contains TCP TLS routes.
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muxerTCPTLS tcpmuxer.Muxer
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// Contains HTTPS routes.
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muxerHTTPS tcpmuxer.Muxer
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// Forwarder handlers.
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// httpForwarder handles all HTTP requests.
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httpForwarder tcp.Handler
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// httpsForwarder handles (indirectly through muxerHTTPS, or directly) all HTTPS requests.
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httpsForwarder tcp.Handler
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// Neither is used directly, but they are held here, and recreated on config reload,
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// so that they can be passed to the Switcher at the end of the config reload phase.
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httpHandler http.Handler
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httpsHandler http.Handler
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// TLS configs.
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httpsTLSConfig *tls.Config // default TLS config
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// hostHTTPTLSConfig contains TLS configs keyed by SNI.
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// A nil config is the hint to set up a brokenTLSRouter.
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hostHTTPTLSConfig map[string]*tls.Config // TLS configs keyed by SNI
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}
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// NewRouter returns a new TCP router.
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func NewRouter() (*Router, error) {
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muxTCP, err := tcpmuxer.NewMuxer()
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if err != nil {
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return nil, err
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}
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muxTCPTLS, err := tcpmuxer.NewMuxer()
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if err != nil {
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return nil, err
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}
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muxHTTPS, err := tcpmuxer.NewMuxer()
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if err != nil {
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return nil, err
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}
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return &Router{
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muxerTCP: *muxTCP,
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muxerTCPTLS: *muxTCPTLS,
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muxerHTTPS: *muxHTTPS,
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}, nil
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}
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// GetTLSGetClientInfo is called after a ClientHello is received from a client.
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func (r *Router) GetTLSGetClientInfo() func(info *tls.ClientHelloInfo) (*tls.Config, error) {
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return func(info *tls.ClientHelloInfo) (*tls.Config, error) {
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if tlsConfig, ok := r.hostHTTPTLSConfig[info.ServerName]; ok {
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return tlsConfig, nil
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}
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return r.httpsTLSConfig, nil
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}
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}
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// ServeTCP forwards the connection to the right TCP/HTTP handler.
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func (r *Router) ServeTCP(conn tcp.WriteCloser) {
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// Handling Non-TLS TCP connection early if there is neither HTTP(S) nor TLS routers on the entryPoint,
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// and if there is at least one non-TLS TCP router.
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// In the case of a non-TLS TCP client (that does not "send" first),
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// we would block forever on clientHelloInfo,
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// which is why we want to detect and handle that case first and foremost.
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if r.muxerTCP.HasRoutes() && !r.muxerTCPTLS.HasRoutes() && !r.muxerHTTPS.HasRoutes() {
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connData, err := tcpmuxer.NewConnData("", conn, nil)
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if err != nil {
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log.Error().Err(err).Msg("Error while reading TCP connection data")
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conn.Close()
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return
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}
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handler, _ := r.muxerTCP.Match(connData)
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// If there is a handler matching the connection metadata,
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// we let it handle the connection.
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if handler != nil {
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// Remove read/write deadline and delegate this to underlying TCP server.
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if err := conn.SetDeadline(time.Time{}); err != nil {
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log.Error().Err(err).Msg("Error while setting deadline")
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}
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handler.ServeTCP(conn)
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return
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}
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// Otherwise, we keep going because:
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// 1) we could be in the case where we have HTTP routers.
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// 2) if it is an HTTPS request, even though we do not have any TLS routers,
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// we still need to reply with a 404.
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}
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// TODO -- Check if ProxyProtocol changes the first bytes of the request
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br := bufio.NewReader(conn)
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postgres, err := isPostgres(br)
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if err != nil {
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conn.Close()
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return
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}
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if postgres {
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r.servePostgres(r.GetConn(conn, getPeeked(br)))
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return
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}
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hello, err := clientHelloInfo(br)
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if err != nil {
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conn.Close()
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return
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}
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// Remove read/write deadline and delegate this to underlying TCP server (for now only handled by HTTP Server)
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if err := conn.SetDeadline(time.Time{}); err != nil {
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log.Error().Err(err).Msg("Error while setting deadline")
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}
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connData, err := tcpmuxer.NewConnData(hello.serverName, conn, hello.protos)
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if err != nil {
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log.Error().Err(err).Msg("Error while reading TCP connection data")
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conn.Close()
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return
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}
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if !hello.isTLS {
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handler, _ := r.muxerTCP.Match(connData)
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switch {
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case handler != nil:
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handler.ServeTCP(r.GetConn(conn, hello.peeked))
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case r.httpForwarder != nil:
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r.httpForwarder.ServeTCP(r.GetConn(conn, hello.peeked))
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default:
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conn.Close()
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}
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return
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}
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// Handling ACME-TLS/1 challenges.
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if slices.Contains(hello.protos, tlsalpn01.ACMETLS1Protocol) {
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r.acmeTLSALPNHandler().ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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// For real, the handler eventually used for HTTPS is (almost) always the same:
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// it is the httpsForwarder that is used for all HTTPS connections that match
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// (which is also incidentally the same used in the last block below for 404s).
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// The added value from doing Match is to find and use the specific TLS config
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// (wrapped inside the returned handler) requested for the given HostSNI.
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handlerHTTPS, catchAllHTTPS := r.muxerHTTPS.Match(connData)
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if handlerHTTPS != nil && !catchAllHTTPS {
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// In order not to depart from the behavior in 2.6,
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// we only allow an HTTPS router to take precedence over a TCP-TLS router if it is _not_ an HostSNI(*) router
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// (so basically any router that has a specific HostSNI based rule).
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handlerHTTPS.ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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// Contains also TCP TLS passthrough routes.
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handlerTCPTLS, catchAllTCPTLS := r.muxerTCPTLS.Match(connData)
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if handlerTCPTLS != nil && !catchAllTCPTLS {
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handlerTCPTLS.ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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// Fallback on HTTPS catchAll.
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// We end up here for e.g. an HTTPS router that only has a PathPrefix rule,
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// which under the scenes is counted as an HostSNI(*) rule.
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if handlerHTTPS != nil {
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handlerHTTPS.ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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// Fallback on TCP TLS catchAll.
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if handlerTCPTLS != nil {
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handlerTCPTLS.ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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// To handle 404s for HTTPS.
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if r.httpsForwarder != nil {
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r.httpsForwarder.ServeTCP(r.GetConn(conn, hello.peeked))
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return
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}
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conn.Close()
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}
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// acmeTLSALPNHandler returns a special handler to solve ACME-TLS/1 challenges.
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func (r *Router) acmeTLSALPNHandler() tcp.Handler {
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if r.httpsTLSConfig == nil {
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return &brokenTLSRouter{}
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}
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return tcp.HandlerFunc(func(conn tcp.WriteCloser) {
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_ = tls.Server(conn, r.httpsTLSConfig).Handshake()
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})
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}
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// AddTCPRoute defines a handler for the given rule.
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func (r *Router) AddTCPRoute(rule string, priority int, target tcp.Handler) error {
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return r.muxerTCP.AddRoute(rule, "", priority, target)
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}
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// AddHTTPTLSConfig defines a handler for a given sniHost and sets the matching tlsConfig.
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func (r *Router) AddHTTPTLSConfig(sniHost string, config *tls.Config) {
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if r.hostHTTPTLSConfig == nil {
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r.hostHTTPTLSConfig = map[string]*tls.Config{}
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}
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r.hostHTTPTLSConfig[sniHost] = config
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}
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// GetConn creates a connection proxy with a peeked string.
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func (r *Router) GetConn(conn tcp.WriteCloser, peeked string) tcp.WriteCloser {
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// TODO should it really be on Router ?
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conn = &Conn{
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Peeked: []byte(peeked),
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WriteCloser: conn,
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}
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return conn
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}
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// GetHTTPHandler gets the attached http handler.
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func (r *Router) GetHTTPHandler() http.Handler {
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return r.httpHandler
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}
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// GetHTTPSHandler gets the attached https handler.
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func (r *Router) GetHTTPSHandler() http.Handler {
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return r.httpsHandler
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}
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// SetHTTPForwarder sets the tcp handler that will forward the connections to an http handler.
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func (r *Router) SetHTTPForwarder(handler tcp.Handler) {
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r.httpForwarder = handler
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}
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// brokenTLSRouter is associated to a Host(SNI) rule for which we know the TLS conf is broken.
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// It is used to make sure any attempt to connect to that hostname is closed,
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// since we cannot proceed with the intended TLS conf.
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type brokenTLSRouter struct{}
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// ServeTCP instantly closes the connection.
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func (t *brokenTLSRouter) ServeTCP(conn tcp.WriteCloser) {
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_ = conn.Close()
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}
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// SetHTTPSForwarder sets the tcp handler that will forward the TLS connections to an HTTP handler.
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// It also sets up each TLS handler (with its TLS config) for each Host(SNI) rule we previously kept track of.
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// It sets up a special handler that closes the connection if a TLS config is nil.
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func (r *Router) SetHTTPSForwarder(handler tcp.Handler) {
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for sniHost, tlsConf := range r.hostHTTPTLSConfig {
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var tcpHandler tcp.Handler
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if tlsConf == nil {
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tcpHandler = &brokenTLSRouter{}
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} else {
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tcpHandler = &tcp.TLSHandler{
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Next: handler,
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Config: tlsConf,
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}
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}
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rule := "HostSNI(`" + sniHost + "`)"
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if err := r.muxerHTTPS.AddRoute(rule, "", tcpmuxer.GetRulePriority(rule), tcpHandler); err != nil {
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log.Error().Err(err).Msg("Error while adding route for host")
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}
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}
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if r.httpsTLSConfig == nil {
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r.httpsForwarder = &brokenTLSRouter{}
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return
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}
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r.httpsForwarder = &tcp.TLSHandler{
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Next: handler,
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Config: r.httpsTLSConfig,
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}
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}
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// SetHTTPHandler attaches http handlers on the router.
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func (r *Router) SetHTTPHandler(handler http.Handler) {
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r.httpHandler = handler
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}
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// SetHTTPSHandler attaches https handlers on the router.
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func (r *Router) SetHTTPSHandler(handler http.Handler, config *tls.Config) {
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r.httpsHandler = handler
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r.httpsTLSConfig = config
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}
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// Conn is a connection proxy that handles Peeked bytes.
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type Conn struct {
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// Peeked are the bytes that have been read from Conn for the purposes of route matching,
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// but have not yet been consumed by Read calls.
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// It set to nil by Read when fully consumed.
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Peeked []byte
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// Conn is the underlying connection.
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// It can be type asserted against *net.TCPConn or other types as needed.
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// It should not be read from directly unless Peeked is nil.
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tcp.WriteCloser
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}
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// Read reads bytes from the connection (using the buffer prior to actually reading).
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func (c *Conn) Read(p []byte) (n int, err error) {
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if len(c.Peeked) > 0 {
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n = copy(p, c.Peeked)
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c.Peeked = c.Peeked[n:]
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if len(c.Peeked) == 0 {
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c.Peeked = nil
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}
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return n, nil
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}
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return c.WriteCloser.Read(p)
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}
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type clientHello struct {
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serverName string // SNI server name
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protos []string // ALPN protocols list
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isTLS bool // whether we are a TLS handshake
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peeked string // the bytes peeked from the hello while getting the info
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}
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// clientHelloInfo returns various data from the clientHello handshake,
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// without consuming any bytes from br.
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// It returns an error if it can't peek the first byte from the connection.
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func clientHelloInfo(br *bufio.Reader) (*clientHello, error) {
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hdr, err := br.Peek(1)
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if err != nil {
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var opErr *net.OpError
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if !errors.Is(err, io.EOF) && (!errors.As(err, &opErr) || opErr.Timeout()) {
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log.Error().Err(err).Msg("Error while Peeking first byte")
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}
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return nil, err
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}
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// No valid TLS record has a type of 0x80, however SSLv2 handshakes start with an uint16 length
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// where the MSB is set and the first record is always < 256 bytes long.
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// Therefore, typ == 0x80 strongly suggests an SSLv2 client.
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const recordTypeSSLv2 = 0x80
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const recordTypeHandshake = 0x16
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if hdr[0] != recordTypeHandshake {
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if hdr[0] == recordTypeSSLv2 {
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// we consider SSLv2 as TLS, and it will be refused by real TLS handshake.
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return &clientHello{
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isTLS: true,
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peeked: getPeeked(br),
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}, nil
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}
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return &clientHello{
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peeked: getPeeked(br),
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}, nil // Not TLS.
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}
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const recordHeaderLen = 5
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hdr, err = br.Peek(recordHeaderLen)
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if err != nil {
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log.Error().Err(err).Msg("Error while Peeking hello")
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return &clientHello{
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peeked: getPeeked(br),
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}, nil
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}
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recLen := int(hdr[3])<<8 | int(hdr[4]) // ignoring version in hdr[1:3]
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if recordHeaderLen+recLen > defaultBufSize {
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br = bufio.NewReaderSize(br, recordHeaderLen+recLen)
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}
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helloBytes, err := br.Peek(recordHeaderLen + recLen)
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if err != nil {
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log.Error().Err(err).Msg("Error while Hello")
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return &clientHello{
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isTLS: true,
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peeked: getPeeked(br),
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}, nil
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}
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sni := ""
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var protos []string
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server := tls.Server(helloSniffConn{r: bytes.NewReader(helloBytes)}, &tls.Config{
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GetConfigForClient: func(hello *tls.ClientHelloInfo) (*tls.Config, error) {
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sni = hello.ServerName
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protos = hello.SupportedProtos
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return nil, nil
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},
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})
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_ = server.Handshake()
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return &clientHello{
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serverName: sni,
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isTLS: true,
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peeked: getPeeked(br),
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protos: protos,
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}, nil
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}
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func getPeeked(br *bufio.Reader) string {
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peeked, err := br.Peek(br.Buffered())
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if err != nil {
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log.Error().Err(err).Msg("Could not get anything")
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return ""
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}
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return string(peeked)
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}
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// helloSniffConn is a net.Conn that reads from r, fails on Writes,
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// and crashes otherwise.
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type helloSniffConn struct {
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r io.Reader
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net.Conn // nil; crash on any unexpected use
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}
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// Read reads from the underlying reader.
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func (c helloSniffConn) Read(p []byte) (int, error) { return c.r.Read(p) }
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// Write crashes all the time.
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func (helloSniffConn) Write(p []byte) (int, error) { return 0, io.EOF }
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