tailscale/net/portmapper/upnp.go
Brad Fitzpatrick 4e91cf20a8 control/controlknobs, all: add plumbed Knobs type, not global variables
Previously two tsnet nodes in the same process couldn't have disjoint
sets of controlknob settings from control as both would overwrite each
other's global variables.

This plumbs a new controlknobs.Knobs type around everywhere and hangs
the knobs sent by control on that instead.

Updates #9351

Change-Id: I75338646d36813ed971b4ffad6f9a8b41ec91560
Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
2023-09-11 12:44:03 -07:00

438 lines
13 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"
"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"
"tailscale.com/envknob"
"tailscale.com/net/netns"
"tailscale.com/types/logger"
)
// 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
// client is a connection to a upnp device, and may be reused across different UPnP mappings.
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)
}
// 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
}
// getUPnPClient gets a client for interfacing with UPnP, 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.
//
// The provided ctx is not retained in the returned upnpClient, but
// its associated HTTP client is (if set via goupnp.WithHTTPClient).
func getUPnPClient(ctx context.Context, logf logger.Logf, debug DebugKnobs, gw netip.Addr, meta uPnPDiscoResponse) (client upnpClient, err error) {
if debug.DisableUPnP {
return nil, nil
}
if meta.Location == "" {
return nil, nil
}
if debug.VerboseLogs {
logf("fetching %v", meta.Location)
}
u, err := url.Parse(meta.Location)
if err != nil {
return nil, err
}
ipp, err := netip.ParseAddrPort(u.Host)
if err != nil {
return 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, err
}
defer func() {
if client == nil {
return
}
logf("saw UPnP type %v at %v; %v (%v)",
strings.TrimPrefix(fmt.Sprintf("%T", client), "*internetgateway2."),
meta.Location, root.Device.FriendlyName, root.Device.Manufacturer)
}()
// These parts don't do a network fetch.
// Pick the best service type available.
if cc, _ := internetgateway2.NewWANIPConnection2ClientsFromRootDevice(ctx, root, u); len(cc) > 0 {
return cc[0], nil
}
if cc, _ := internetgateway2.NewWANIPConnection1ClientsFromRootDevice(ctx, root, u); len(cc) > 0 {
return cc[0], nil
}
if cc, _ := internetgateway2.NewWANPPPConnection1ClientsFromRootDevice(ctx, root, u); len(cc) > 0 {
return cc[0], nil
}
return nil, nil
}
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 client upnpClient
var err error
c.mu.Lock()
oldMapping, ok := c.mapping.(*upnpMapping)
meta := c.uPnPMeta
httpClient := c.upnpHTTPClientLocked()
c.mu.Unlock()
if ok && oldMapping != nil {
client = oldMapping.client
} else {
ctx := goupnp.WithHTTPClient(ctx, httpClient)
client, err = getUPnPClient(ctx, c.logf, c.debug, gw, meta)
if c.debug.VerboseLogs {
c.logf("getUPnPClient: %T, %v", client, err)
}
if err != nil {
return netip.AddrPort{}, false
}
}
if client == nil {
return netip.AddrPort{}, false
}
var newPort uint16
newPort, err = addAnyPortMapping(
ctx,
client,
prevPort,
internal.Port(),
internal.Addr().String(),
time.Second*pmpMapLifetimeSec,
)
if c.debug.VerboseLogs {
c.logf("addAnyPortMapping: %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)
d := time.Duration(pmpMapLifetimeSec) * time.Second
upnp.goodUntil = now.Add(d)
upnp.renewAfter = now.Add(d / 2)
upnp.client = client
c.mu.Lock()
defer c.mu.Unlock()
c.mapping = upnp
c.localPort = newPort
return upnp.external, 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", 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", 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
}