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tailscale/net/portmapper/upnp.go

635 lines
19 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
//go:build !js
// (no raw sockets in JS/WASM)
package portmapper
import (
"bufio"
"bytes"
"context"
"encoding/xml"
"fmt"
"io"
"math/rand"
"net"
"net/http"
"net/netip"
"net/url"
"strings"
"sync/atomic"
"time"
"github.com/tailscale/goupnp"
"github.com/tailscale/goupnp/dcps/internetgateway2"
"github.com/tailscale/goupnp/soap"
"tailscale.com/envknob"
"tailscale.com/net/netns"
"tailscale.com/types/logger"
"tailscale.com/util/mak"
)
// References:
//
// WANIP Connection v2: http://upnp.org/specs/gw/UPnP-gw-WANIPConnection-v2-Service.pdf
// upnpMapping is a port mapping over the upnp protocol. After being created it is immutable,
// but the client field may be shared across mapping instances.
type upnpMapping struct {
gw netip.Addr
external netip.AddrPort
internal netip.AddrPort
goodUntil time.Time
renewAfter time.Time
// rootDev is the UPnP root device, and may be reused across different
// UPnP mappings.
rootDev *goupnp.RootDevice
// loc is the location used to fetch the rootDev
loc *url.URL
// client is the most recent UPnP client used, and should only be used
// to release an existing mapping; new mappings should be selected from
// the rootDev on each attempt.
client upnpClient
}
// upnpProtocolUDP represents the protocol name for UDP, to be used in the UPnP
// <AddPortMapping> message in the <NewProtocol> field.
//
// NOTE: this must be an upper-case string, or certain routers will reject the
// mapping request. Other implementations like miniupnp send an upper-case
// protocol as well. See:
//
// https://github.com/tailscale/tailscale/issues/7377
const upnpProtocolUDP = "UDP"
func (u *upnpMapping) GoodUntil() time.Time { return u.goodUntil }
func (u *upnpMapping) RenewAfter() time.Time { return u.renewAfter }
func (u *upnpMapping) External() netip.AddrPort { return u.external }
func (u *upnpMapping) Release(ctx context.Context) {
u.client.DeletePortMapping(ctx, "", u.external.Port(), upnpProtocolUDP)
}
// upnpClient is an interface over the multiple different clients exported by goupnp,
// exposing the functions we need for portmapping. Those clients are auto-generated from XML-specs,
// which is why they're not very idiomatic.
type upnpClient interface {
AddPortMapping(
ctx context.Context,
// remoteHost is the remote device sending packets to this device, in the format of x.x.x.x.
// The empty string, "", means any host out on the internet can send packets in.
remoteHost string,
// externalPort is the exposed port of this port mapping. Visible during NAT operations.
// 0 will let the router select the port, but there is an additional call,
// `AddAnyPortMapping`, which is available on 1 of the 3 possible protocols,
// which should be used if available. See `addAnyPortMapping` below, which calls this if
// `AddAnyPortMapping` is not supported.
externalPort uint16,
// protocol is whether this is over TCP or UDP. Either "TCP" or "UDP".
protocol string,
// internalPort is the port that the gateway device forwards the traffic to.
internalPort uint16,
// internalClient is the IP address that packets will be forwarded to for this mapping.
// Internal client is of the form "x.x.x.x".
internalClient string,
// enabled is whether this portmapping should be enabled or disabled.
enabled bool,
// portMappingDescription is a user-readable description of this portmapping.
portMappingDescription string,
// leaseDurationSec is the duration of this portmapping. The value of this argument must be
// greater than 0. From the spec, it appears if it is set to 0, it will switch to using
// 604800 seconds, but not sure why this is desired. The recommended time is 3600 seconds.
leaseDurationSec uint32,
) error
DeletePortMapping(ctx context.Context, remoteHost string, externalPort uint16, protocol string) error
GetExternalIPAddress(ctx context.Context) (externalIPAddress string, err error)
GetStatusInfo(ctx context.Context) (status string, lastConnError string, uptime uint32, err error)
}
// tsPortMappingDesc gets sent to UPnP clients as a human-readable label for the portmapping.
// It is not used for anything other than labelling.
const tsPortMappingDesc = "tailscale-portmap"
// addAnyPortMapping abstracts over different UPnP client connections, calling
// the available AddAnyPortMapping call if available for WAN IP connection v2,
// otherwise picking either the previous port (if one is present) or a random
// port and trying to obtain a mapping using AddPortMapping.
//
// It returns the new external port (which may not be identical to the external
// port specified), or an error.
//
// TODO(bradfitz): also returned the actual lease duration obtained. and check it regularly.
func addAnyPortMapping(
ctx context.Context,
upnp upnpClient,
externalPort uint16,
internalPort uint16,
internalClient string,
leaseDuration time.Duration,
) (newPort uint16, err error) {
// Some devices don't let clients add a port mapping for privileged
// ports (ports below 1024). Additionally, per section 2.3.18 of the
// UPnP spec, regarding the ExternalPort field:
//
// If this value is specified as a wildcard (i.e. 0), connection
// request on all external ports (that are not otherwise mapped)
// will be forwarded to InternalClient. In the wildcard case, the
// value(s) of InternalPort on InternalClient are ignored by the IGD
// for those connections that are forwarded to InternalClient.
// Obviously only one such entry can exist in the NAT at any time
// and conflicts are handled with a “first write wins” behavior.
//
// We obviously do not want to open all ports on the user's device to
// the internet, so we want to do this prior to calling either
// AddAnyPortMapping or AddPortMapping.
//
// Pick an external port that's greater than 1024 by getting a random
// number in [0, 65535 - 1024] and then adding 1024 to it, shifting the
// range to [1024, 65535].
if externalPort < 1024 {
externalPort = uint16(rand.Intn(65535-1024) + 1024)
}
// First off, try using AddAnyPortMapping; if there's a conflict, the
// router will pick another port and return it.
if upnp, ok := upnp.(*internetgateway2.WANIPConnection2); ok {
return upnp.AddAnyPortMapping(
ctx,
"",
externalPort,
upnpProtocolUDP,
internalPort,
internalClient,
true,
tsPortMappingDesc,
uint32(leaseDuration.Seconds()),
)
}
// Fall back to using AddPortMapping, which requests a mapping to/from
// a specific external port.
err = upnp.AddPortMapping(
ctx,
"",
externalPort,
upnpProtocolUDP,
internalPort,
internalClient,
true,
tsPortMappingDesc,
uint32(leaseDuration.Seconds()),
)
return externalPort, err
}
// getUPnPRootDevice fetches the UPnP root device given the discovery response,
// ignoring the underlying protocol for now.
// Adapted from https://github.com/huin/goupnp/blob/master/GUIDE.md.
//
// The gw is the detected gateway.
//
// The meta is the most recently parsed UDP discovery packet response
// from the Internet Gateway Device.
func getUPnPRootDevice(ctx context.Context, logf logger.Logf, debug DebugKnobs, gw netip.Addr, meta uPnPDiscoResponse) (rootDev *goupnp.RootDevice, loc *url.URL, err error) {
if debug.DisableUPnP {
return nil, nil, nil
}
if meta.Location == "" {
return nil, nil, nil
}
if debug.VerboseLogs {
logf("fetching %v", meta.Location)
}
u, err := url.Parse(meta.Location)
if err != nil {
return nil, nil, err
}
ipp, err := netip.ParseAddrPort(u.Host)
if err != nil {
return nil, nil, fmt.Errorf("unexpected host %q in %q", u.Host, meta.Location)
}
if ipp.Addr() != gw {
// https://github.com/tailscale/tailscale/issues/5502
logf("UPnP discovered root %q does not match gateway IP %v; repointing at gateway which is assumed to be floating",
meta.Location, gw)
u.Host = net.JoinHostPort(gw.String(), u.Port())
}
// We're fetching a smallish XML document over plain HTTP
// across the local LAN, without using DNS. There should be
// very few round trips and low latency, so one second is a
// long time.
ctx, cancel := context.WithTimeout(ctx, time.Second)
defer cancel()
// This part does a network fetch.
root, err := goupnp.DeviceByURL(ctx, u)
if err != nil {
return nil, nil, err
}
return root, u, nil
}
// selectBestService picks the "best" service from the given UPnP root device
// to use to create a port mapping.
//
// loc is the parsed location that was used to fetch the given RootDevice.
//
// The provided ctx is not retained in the returned upnpClient, but
// its associated HTTP client is (if set via goupnp.WithHTTPClient).
func selectBestService(ctx context.Context, logf logger.Logf, root *goupnp.RootDevice, loc *url.URL) (client upnpClient, err error) {
method := "none"
defer func() {
if client == nil {
return
}
logf("saw UPnP type %v at %v; %v (%v), method=%s",
strings.TrimPrefix(fmt.Sprintf("%T", client), "*internetgateway2."),
loc, root.Device.FriendlyName, root.Device.Manufacturer,
method)
}()
// First, get all available clients from the device, and append to our
// list of possible clients. Order matters here; we want to prefer
// WANIPConnection2 over WANIPConnection1 or WANPPPConnection.
wanIP2, _ := internetgateway2.NewWANIPConnection2ClientsFromRootDevice(ctx, root, loc)
wanIP1, _ := internetgateway2.NewWANIPConnection1ClientsFromRootDevice(ctx, root, loc)
wanPPP, _ := internetgateway2.NewWANPPPConnection1ClientsFromRootDevice(ctx, root, loc)
var clients []upnpClient
for _, v := range wanIP2 {
clients = append(clients, v)
}
for _, v := range wanIP1 {
clients = append(clients, v)
}
for _, v := range wanPPP {
clients = append(clients, v)
}
// If we have no clients, then return right now; if we only have one,
// just select and return it.
if len(clients) == 0 {
return nil, nil
}
if len(clients) == 1 {
method = "single"
metricUPnPSelectSingle.Add(1)
return clients[0], nil
}
metricUPnPSelectMultiple.Add(1)
// In order to maximize the chances that we find a valid UPnP device
// that can give us a port mapping, we check a few properties:
// 1. Whether the device is "online", as defined by GetStatusInfo
// 2. Whether the device has an external IP address, as defined by
// GetExternalIPAddress
// 3. Whether the device's external IP address is a public address
// or a private one.
//
// We prefer a device where all of the above is true, and fall back if
// none are found.
//
// In order to save on network requests, iterate through all devices
// and determine how many "points" they have based on the above
// criteria, but return immediately if we find one that meets all
// three.
var (
connected = make(map[upnpClient]bool)
externalIPs map[upnpClient]netip.Addr
)
for _, svc := range clients {
isConnected := serviceIsConnected(ctx, logf, svc)
connected[svc] = isConnected
// Don't bother checking for an external IP if the device isn't
// connected; technically this could happen with a misbehaving
// device, but that seems unlikely.
if !isConnected {
continue
}
// Check if the device has an external IP address.
extIP, err := svc.GetExternalIPAddress(ctx)
if err != nil {
continue
}
externalIP, err := netip.ParseAddr(extIP)
if err != nil {
continue
}
mak.Set(&externalIPs, svc, externalIP)
// If we get here, this device has a non-private external IP
// and is up, so we can just return it.
if !externalIP.IsPrivate() {
method = "ext-public"
metricUPnPSelectExternalPublic.Add(1)
return svc, nil
}
}
// Okay, we have no devices that meet all the available options. Fall
// back to first checking for devices that are up and have a private
// external IP (order matters), and then devices that are up, and then
// just anything at all.
//
// try=0 Up + private external IP
// try=1 Up
for try := 0; try <= 1; try++ {
for _, svc := range clients {
if !connected[svc] {
continue
}
_, hasExtIP := externalIPs[svc]
if hasExtIP {
method = "ext-private"
metricUPnPSelectExternalPrivate.Add(1)
return svc, nil
} else if try == 1 {
method = "up"
metricUPnPSelectUp.Add(1)
return svc, nil
}
}
}
// Nothing is up, but we have something (length of clients checked
// above); just return the first one.
metricUPnPSelectNone.Add(1)
return clients[0], nil
}
// serviceIsConnected returns whether a given UPnP service is connected, based
// on the NewConnectionStatus field returned from GetStatusInfo.
func serviceIsConnected(ctx context.Context, logf logger.Logf, svc upnpClient) bool {
status, _ /* NewLastConnectionError */, _ /* NewUptime */, err := svc.GetStatusInfo(ctx)
if err != nil {
return false
}
return status == "Connected" || status == "Up"
}
func (c *Client) upnpHTTPClientLocked() *http.Client {
if c.uPnPHTTPClient == nil {
c.uPnPHTTPClient = &http.Client{
Transport: &http.Transport{
DialContext: netns.NewDialer(c.logf, c.netMon).DialContext,
IdleConnTimeout: 2 * time.Second, // LAN is cheap
},
}
if c.debug.LogHTTP {
c.uPnPHTTPClient = requestLogger(c.logf, c.uPnPHTTPClient)
}
}
return c.uPnPHTTPClient
}
var (
disableUPnpEnv = envknob.RegisterBool("TS_DISABLE_UPNP")
)
// getUPnPPortMapping attempts to create a port-mapping over the UPnP protocol. On success,
// it will return the externally exposed IP and port. Otherwise, it will return a zeroed IP and
// port and an error.
func (c *Client) getUPnPPortMapping(
ctx context.Context,
gw netip.Addr,
internal netip.AddrPort,
prevPort uint16,
) (external netip.AddrPort, ok bool) {
if disableUPnpEnv() || c.debug.DisableUPnP || (c.controlKnobs != nil && c.controlKnobs.DisableUPnP.Load()) {
return netip.AddrPort{}, false
}
now := time.Now()
upnp := &upnpMapping{
gw: gw,
internal: internal,
}
var (
rootDev *goupnp.RootDevice
loc *url.URL
err error
)
c.mu.Lock()
oldMapping, ok := c.mapping.(*upnpMapping)
meta := c.uPnPMeta
ctx = goupnp.WithHTTPClient(ctx, c.upnpHTTPClientLocked())
c.mu.Unlock()
if ok && oldMapping != nil {
rootDev = oldMapping.rootDev
loc = oldMapping.loc
} else {
rootDev, loc, err = getUPnPRootDevice(ctx, c.logf, c.debug, gw, meta)
if c.debug.VerboseLogs {
c.logf("getUPnPRootDevice: loc=%q err=%v", loc, err)
}
if err != nil {
return netip.AddrPort{}, false
}
}
if rootDev == nil {
return netip.AddrPort{}, false
}
// Now that we have a root device, select the best mapping service from
// it. This makes network requests, and can vary from mapping to
// mapping if the upstream device's connection status changes.
client, err := selectBestService(ctx, c.logf, rootDev, loc)
if err != nil {
return netip.AddrPort{}, false
}
// Start by trying to make a temporary lease with a duration.
var newPort uint16
newPort, err = addAnyPortMapping(
ctx,
client,
prevPort,
internal.Port(),
internal.Addr().String(),
pmpMapLifetimeSec*time.Second,
)
if c.debug.VerboseLogs {
c.logf("addAnyPortMapping: %v, err=%q", newPort, err)
}
// If this is an error and the code is
// "OnlyPermanentLeasesSupported", then we retry with no lease
// duration; see the following issue for details:
// https://github.com/tailscale/tailscale/issues/9343
if err != nil {
code, ok := getUPnPErrorCode(err)
if ok {
getUPnPErrorsMetric(code).Add(1)
}
// From the UPnP spec: http://upnp.org/specs/gw/UPnP-gw-WANIPConnection-v2-Service.pdf
// 725: OnlyPermanentLeasesSupported
if ok && code == 725 {
newPort, err = addAnyPortMapping(
ctx,
client,
prevPort,
internal.Port(),
internal.Addr().String(),
0, // permanent
)
if c.debug.VerboseLogs {
c.logf("addAnyPortMapping: 725 retry %v, err=%q", newPort, err)
}
}
}
if err != nil {
return netip.AddrPort{}, false
}
// TODO cache this ip somewhere?
extIP, err := client.GetExternalIPAddress(ctx)
if c.debug.VerboseLogs {
c.logf("client.GetExternalIPAddress: %v, %v", extIP, err)
}
if err != nil {
// TODO this doesn't seem right
return netip.AddrPort{}, false
}
externalIP, err := netip.ParseAddr(extIP)
if err != nil {
return netip.AddrPort{}, false
}
upnp.external = netip.AddrPortFrom(externalIP, newPort)
// NOTE: this time might not technically be accurate if we created a
// permanent lease above, but we should still re-check the presence of
// the lease on a regular basis so we use it anyway.
d := time.Duration(pmpMapLifetimeSec) * time.Second
upnp.goodUntil = now.Add(d)
upnp.renewAfter = now.Add(d / 2)
upnp.rootDev = rootDev
upnp.loc = loc
upnp.client = client
c.mu.Lock()
defer c.mu.Unlock()
c.mapping = upnp
c.localPort = newPort
return upnp.external, true
}
// getUPnPErrorCode returns the UPnP error code from the given response, if the
// error is a SOAP error in the proper format, and a boolean indicating whether
// the provided error was actually a UPnP error.
func getUPnPErrorCode(err error) (int, bool) {
soapErr, ok := err.(*soap.SOAPFaultError)
if !ok {
return 0, false
}
var upnpErr struct {
XMLName xml.Name
Code int `xml:"errorCode"`
Description string `xml:"errorDescription"`
}
if err := xml.Unmarshal([]byte(soapErr.Detail.Raw), &upnpErr); err != nil {
return 0, false
}
if upnpErr.XMLName.Local != "UPnPError" {
return 0, false
}
return upnpErr.Code, true
}
type uPnPDiscoResponse struct {
Location string
// Server describes what version the UPnP is, such as MiniUPnPd/2.x.x
Server string
// USN is the serial number of the device, which also contains
// what kind of UPnP service is being offered, i.e. InternetGatewayDevice:2
USN string
}
// parseUPnPDiscoResponse parses a UPnP HTTP-over-UDP discovery response.
func parseUPnPDiscoResponse(body []byte) (uPnPDiscoResponse, error) {
var r uPnPDiscoResponse
res, err := http.ReadResponse(bufio.NewReaderSize(bytes.NewReader(body), 128), nil)
if err != nil {
return r, err
}
r.Location = res.Header.Get("Location")
r.Server = res.Header.Get("Server")
r.USN = res.Header.Get("Usn")
return r, nil
}
type roundTripperFunc func(*http.Request) (*http.Response, error)
func (r roundTripperFunc) RoundTrip(req *http.Request) (*http.Response, error) {
return r(req)
}
func requestLogger(logf logger.Logf, client *http.Client) *http.Client {
// Clone the HTTP client, and override the Transport to log to the
// provided logger.
ret := *client
oldTransport := ret.Transport
var requestCounter atomic.Uint64
loggingTransport := roundTripperFunc(func(req *http.Request) (*http.Response, error) {
ctr := requestCounter.Add(1)
// Read the body and re-set it.
var (
body []byte
err error
)
if req.Body != nil {
body, err = io.ReadAll(req.Body)
req.Body.Close()
if err != nil {
return nil, err
}
req.Body = io.NopCloser(bytes.NewReader(body))
}
logf("request[%d]: %s %q body=%q", ctr, req.Method, req.URL, body)
resp, err := oldTransport.RoundTrip(req)
if err != nil {
logf("response[%d]: err=%v", ctr, err)
return nil, err
}
// Read the response body
if resp.Body != nil {
body, err = io.ReadAll(resp.Body)
resp.Body.Close()
if err != nil {
logf("response[%d]: %d bodyErr=%v", ctr, resp.StatusCode, err)
return nil, err
}
resp.Body = io.NopCloser(bytes.NewReader(body))
}
logf("response[%d]: %d body=%q", ctr, resp.StatusCode, body)
return resp, nil
})
ret.Transport = loggingTransport
return &ret
}