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tailscale/net/interfaces/interfaces.go

748 lines
20 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
// Package interfaces contains helpers for looking up system network interfaces.
package interfaces
import (
"bytes"
"fmt"
"net"
"net/http"
"net/netip"
"runtime"
"slices"
"sort"
"strings"
"tailscale.com/hostinfo"
"tailscale.com/net/netaddr"
"tailscale.com/net/tsaddr"
"tailscale.com/net/tshttpproxy"
)
// LoginEndpointForProxyDetermination is the URL used for testing
// which HTTP proxy the system should use.
var LoginEndpointForProxyDetermination = "https://controlplane.tailscale.com/"
func isUp(nif *net.Interface) bool { return nif.Flags&net.FlagUp != 0 }
func isLoopback(nif *net.Interface) bool { return nif.Flags&net.FlagLoopback != 0 }
func isProblematicInterface(nif *net.Interface) bool {
name := nif.Name
// Don't try to send disco/etc packets over zerotier; they effectively
// DoS each other by doing traffic amplification, both of them
// preferring/trying to use each other for transport. See:
// https://github.com/tailscale/tailscale/issues/1208
if strings.HasPrefix(name, "zt") || (runtime.GOOS == "windows" && strings.Contains(name, "ZeroTier")) {
return true
}
return false
}
// LocalAddresses returns the machine's IP addresses, separated by
// whether they're loopback addresses. If there are no regular addresses
// it will return any IPv4 linklocal or IPv6 unique local addresses because we
// know of environments where these are used with NAT to provide connectivity.
func LocalAddresses() (regular, loopback []netip.Addr, err error) {
// TODO(crawshaw): don't serve interface addresses that we are routing
ifaces, err := netInterfaces()
if err != nil {
return nil, nil, err
}
var regular4, regular6, linklocal4, ula6 []netip.Addr
for _, iface := range ifaces {
stdIf := iface.Interface
if !isUp(stdIf) || isProblematicInterface(stdIf) {
// Skip down interfaces and ones that are
// problematic that we don't want to try to
// send Tailscale traffic over.
continue
}
ifcIsLoopback := isLoopback(stdIf)
addrs, err := iface.Addrs()
if err != nil {
return nil, nil, err
}
for _, a := range addrs {
switch v := a.(type) {
case *net.IPNet:
ip, ok := netip.AddrFromSlice(v.IP)
if !ok {
continue
}
ip = ip.Unmap()
// TODO(apenwarr): don't special case cgNAT.
// In the general wireguard case, it might
// very well be something we can route to
// directly, because both nodes are
// behind the same CGNAT router.
if tsaddr.IsTailscaleIP(ip) {
continue
}
if ip.IsLoopback() || ifcIsLoopback {
loopback = append(loopback, ip)
} else if ip.IsLinkLocalUnicast() {
if ip.Is4() {
linklocal4 = append(linklocal4, ip)
}
// We know of no cases where the IPv6 fe80:: addresses
// are used to provide WAN connectivity. It is also very
// common for users to have no IPv6 WAN connectivity,
// but their OS supports IPv6 so they have an fe80::
// address. We don't want to report all of those
// IPv6 LL to Control.
} else if ip.Is6() && ip.IsPrivate() {
// Google Cloud Run uses NAT with IPv6 Unique
// Local Addresses to provide IPv6 connectivity.
ula6 = append(ula6, ip)
} else {
if ip.Is4() {
regular4 = append(regular4, ip)
} else {
regular6 = append(regular6, ip)
}
}
}
}
}
if len(regular4) == 0 && len(regular6) == 0 {
// if we have no usable IP addresses then be willing to accept
// addresses we otherwise wouldn't, like:
// + 169.254.x.x (AWS Lambda and Azure App Services use NAT with these)
// + IPv6 ULA (Google Cloud Run uses these with address translation)
regular4 = linklocal4
regular6 = ula6
}
regular = append(regular4, regular6...)
sortIPs(regular)
sortIPs(loopback)
return regular, loopback, nil
}
func sortIPs(s []netip.Addr) {
sort.Slice(s, func(i, j int) bool { return s[i].Less(s[j]) })
}
// Interface is a wrapper around Go's net.Interface with some extra methods.
type Interface struct {
*net.Interface
AltAddrs []net.Addr // if non-nil, returned by Addrs
Desc string // extra description (used on Windows)
}
func (i Interface) IsLoopback() bool { return isLoopback(i.Interface) }
func (i Interface) IsUp() bool { return isUp(i.Interface) }
func (i Interface) Addrs() ([]net.Addr, error) {
if i.AltAddrs != nil {
return i.AltAddrs, nil
}
return i.Interface.Addrs()
}
// ForeachInterfaceAddress is a wrapper for GetList, then
// List.ForeachInterfaceAddress.
func ForeachInterfaceAddress(fn func(Interface, netip.Prefix)) error {
ifaces, err := GetList()
if err != nil {
return err
}
return ifaces.ForeachInterfaceAddress(fn)
}
// ForeachInterfaceAddress calls fn for each interface in ifaces, with
// all its addresses. The IPPrefix's IP is the IP address assigned to
// the interface, and Bits are the subnet mask.
func (ifaces List) ForeachInterfaceAddress(fn func(Interface, netip.Prefix)) error {
for _, iface := range ifaces {
addrs, err := iface.Addrs()
if err != nil {
return err
}
for _, a := range addrs {
switch v := a.(type) {
case *net.IPNet:
if pfx, ok := netaddr.FromStdIPNet(v); ok {
fn(iface, pfx)
}
}
}
}
return nil
}
// ForeachInterface is a wrapper for GetList, then
// List.ForeachInterface.
func ForeachInterface(fn func(Interface, []netip.Prefix)) error {
ifaces, err := GetList()
if err != nil {
return err
}
return ifaces.ForeachInterface(fn)
}
// ForeachInterface calls fn for each interface in ifaces, with
// all its addresses. The IPPrefix's IP is the IP address assigned to
// the interface, and Bits are the subnet mask.
func (ifaces List) ForeachInterface(fn func(Interface, []netip.Prefix)) error {
for _, iface := range ifaces {
addrs, err := iface.Addrs()
if err != nil {
return err
}
var pfxs []netip.Prefix
for _, a := range addrs {
switch v := a.(type) {
case *net.IPNet:
if pfx, ok := netaddr.FromStdIPNet(v); ok {
pfxs = append(pfxs, pfx)
}
}
}
sort.Slice(pfxs, func(i, j int) bool {
return pfxs[i].Addr().Less(pfxs[j].Addr())
})
fn(iface, pfxs)
}
return nil
}
// State is intended to store the state of the machine's network interfaces,
// routing table, and other network configuration.
// For now it's pretty basic.
type State struct {
// InterfaceIPs maps from an interface name to the IP addresses
// configured on that interface. Each address is represented as an
// IPPrefix, where the IP is the interface IP address and Bits is
// the subnet mask.
InterfaceIPs map[string][]netip.Prefix
Interface map[string]Interface
// HaveV6 is whether this machine has an IPv6 Global or Unique Local Address
// which might provide connectivity on a non-Tailscale interface that's up.
HaveV6 bool
// HaveV4 is whether the machine has some non-localhost,
// non-link-local IPv4 address on a non-Tailscale interface that's up.
HaveV4 bool
// IsExpensive is whether the current network interface is
// considered "expensive", which currently means LTE/etc
// instead of Wifi. This field is not populated by GetState.
IsExpensive bool
// DefaultRouteInterface is the interface name for the
// machine's default route.
//
// It is not yet populated on all OSes.
//
// When non-empty, its value is the map key into Interface and
// InterfaceIPs.
DefaultRouteInterface string
// HTTPProxy is the HTTP proxy to use, if any.
HTTPProxy string
// PAC is the URL to the Proxy Autoconfig URL, if applicable.
PAC string
}
func (s *State) String() string {
var sb strings.Builder
fmt.Fprintf(&sb, "interfaces.State{defaultRoute=%v ", s.DefaultRouteInterface)
if s.DefaultRouteInterface != "" {
if iface, ok := s.Interface[s.DefaultRouteInterface]; ok && iface.Desc != "" {
fmt.Fprintf(&sb, "(%s) ", iface.Desc)
}
}
sb.WriteString("ifs={")
var ifs []string
for k := range s.Interface {
if s.keepInterfaceInStringSummary(k) {
ifs = append(ifs, k)
}
}
sort.Slice(ifs, func(i, j int) bool {
upi, upj := s.Interface[ifs[i]].IsUp(), s.Interface[ifs[j]].IsUp()
if upi != upj {
// Up sorts before down.
return upi
}
return ifs[i] < ifs[j]
})
for i, ifName := range ifs {
if i > 0 {
sb.WriteString(" ")
}
iface := s.Interface[ifName]
if iface.Interface == nil {
fmt.Fprintf(&sb, "%s:nil", ifName)
continue
}
if !iface.IsUp() {
fmt.Fprintf(&sb, "%s:down", ifName)
continue
}
fmt.Fprintf(&sb, "%s:[", ifName)
needSpace := false
for _, pfx := range s.InterfaceIPs[ifName] {
a := pfx.Addr()
if a.IsMulticast() {
continue
}
fam := "4"
if a.Is6() {
fam = "6"
}
if needSpace {
sb.WriteString(" ")
}
needSpace = true
switch {
case a.IsLoopback():
fmt.Fprintf(&sb, "lo%s", fam)
case a.IsLinkLocalUnicast():
fmt.Fprintf(&sb, "llu%s", fam)
default:
fmt.Fprintf(&sb, "%s", pfx)
}
}
sb.WriteString("]")
}
sb.WriteString("}")
if s.IsExpensive {
sb.WriteString(" expensive")
}
if s.HTTPProxy != "" {
fmt.Fprintf(&sb, " httpproxy=%s", s.HTTPProxy)
}
if s.PAC != "" {
fmt.Fprintf(&sb, " pac=%s", s.PAC)
}
fmt.Fprintf(&sb, " v4=%v v6=%v}", s.HaveV4, s.HaveV6)
return sb.String()
}
// Equal reports whether s and s2 are exactly equal.
func (s *State) Equal(s2 *State) bool {
if s == nil && s2 == nil {
return true
}
if s == nil || s2 == nil {
return false
}
if s.HaveV6 != s2.HaveV6 ||
s.HaveV4 != s2.HaveV4 ||
s.IsExpensive != s2.IsExpensive ||
s.DefaultRouteInterface != s2.DefaultRouteInterface ||
s.HTTPProxy != s2.HTTPProxy ||
s.PAC != s2.PAC {
return false
}
for iname, i := range s.Interface {
i2, ok := s2.Interface[iname]
if !ok {
return false
}
if !i.Equal(i2) {
return false
}
}
for iname, vv := range s.InterfaceIPs {
if !slices.Equal(vv, s2.InterfaceIPs[iname]) {
return false
}
}
return true
}
// HasIP reports whether any interface has the provided IP address.
func (s *State) HasIP(ip netip.Addr) bool {
if s == nil {
return false
}
for _, pv := range s.InterfaceIPs {
for _, p := range pv {
if p.Contains(ip) {
return true
}
}
}
return false
}
func (a Interface) Equal(b Interface) bool {
if (a.Interface == nil) != (b.Interface == nil) {
return false
}
if !(a.Desc == b.Desc && netAddrsEqual(a.AltAddrs, b.AltAddrs)) {
return false
}
if a.Interface != nil && !(a.Index == b.Index &&
a.MTU == b.MTU &&
a.Name == b.Name &&
a.Flags == b.Flags &&
bytes.Equal([]byte(a.HardwareAddr), []byte(b.HardwareAddr))) {
return false
}
return true
}
func (s *State) HasPAC() bool { return s != nil && s.PAC != "" }
// AnyInterfaceUp reports whether any interface seems like it has Internet access.
func (s *State) AnyInterfaceUp() bool {
if runtime.GOOS == "js" || runtime.GOOS == "tamago" {
return true
}
return s != nil && (s.HaveV4 || s.HaveV6)
}
func netAddrsEqual(a, b []net.Addr) bool {
if len(a) != len(b) {
return false
}
for i, av := range a {
if av.Network() != b[i].Network() || av.String() != b[i].String() {
return false
}
}
return true
}
func hasTailscaleIP(pfxs []netip.Prefix) bool {
for _, pfx := range pfxs {
if tsaddr.IsTailscaleIP(pfx.Addr()) {
return true
}
}
return false
}
func isTailscaleInterface(name string, ips []netip.Prefix) bool {
if runtime.GOOS == "darwin" && strings.HasPrefix(name, "utun") && hasTailscaleIP(ips) {
// On macOS in the sandboxed app (at least as of
// 2021-02-25), we often see two utun devices
// (e.g. utun4 and utun7) with the same IPv4 and IPv6
// addresses. Just remove all utun devices with
// Tailscale IPs until we know what's happening with
// macOS NetworkExtensions and utun devices.
return true
}
return name == "Tailscale" || // as it is on Windows
strings.HasPrefix(name, "tailscale") // TODO: use --tun flag value, etc; see TODO in method doc
}
// getPAC, if non-nil, returns the current PAC file URL.
var getPAC func() string
// GetState returns the state of all the current machine's network interfaces.
//
// It does not set the returned State.IsExpensive. The caller can populate that.
//
// Deprecated: use netmon.Monitor.InterfaceState instead.
func GetState() (*State, error) {
s := &State{
InterfaceIPs: make(map[string][]netip.Prefix),
Interface: make(map[string]Interface),
}
if err := ForeachInterface(func(ni Interface, pfxs []netip.Prefix) {
ifUp := ni.IsUp()
s.Interface[ni.Name] = ni
s.InterfaceIPs[ni.Name] = append(s.InterfaceIPs[ni.Name], pfxs...)
if !ifUp || isTailscaleInterface(ni.Name, pfxs) {
return
}
for _, pfx := range pfxs {
if pfx.Addr().IsLoopback() {
continue
}
s.HaveV6 = s.HaveV6 || isUsableV6(pfx.Addr())
s.HaveV4 = s.HaveV4 || isUsableV4(pfx.Addr())
}
}); err != nil {
return nil, err
}
dr, _ := DefaultRoute()
s.DefaultRouteInterface = dr.InterfaceName
// Populate description (for Windows, primarily) if present.
if desc := dr.InterfaceDesc; desc != "" {
if iface, ok := s.Interface[dr.InterfaceName]; ok {
iface.Desc = desc
s.Interface[dr.InterfaceName] = iface
}
}
if s.AnyInterfaceUp() {
req, err := http.NewRequest("GET", LoginEndpointForProxyDetermination, nil)
if err != nil {
return nil, err
}
if u, err := tshttpproxy.ProxyFromEnvironment(req); err == nil && u != nil {
s.HTTPProxy = u.String()
}
if getPAC != nil {
s.PAC = getPAC()
}
}
return s, nil
}
// HTTPOfListener returns the HTTP address to ln.
// If the listener is listening on the unspecified address, it
// it tries to find a reasonable interface address on the machine to use.
func HTTPOfListener(ln net.Listener) string {
ta, ok := ln.Addr().(*net.TCPAddr)
if !ok || !ta.IP.IsUnspecified() {
return fmt.Sprintf("http://%v/", ln.Addr())
}
var goodIP string
var privateIP string
ForeachInterfaceAddress(func(i Interface, pfx netip.Prefix) {
ip := pfx.Addr()
if ip.IsPrivate() {
if privateIP == "" {
privateIP = ip.String()
}
return
}
goodIP = ip.String()
})
if privateIP != "" {
goodIP = privateIP
}
if goodIP != "" {
return fmt.Sprintf("http://%v/", net.JoinHostPort(goodIP, fmt.Sprint(ta.Port)))
}
return fmt.Sprintf("http://localhost:%v/", fmt.Sprint(ta.Port))
}
var likelyHomeRouterIP func() (netip.Addr, bool)
// LikelyHomeRouterIP returns the likely IP of the residential router,
// which will always be an IPv4 private address, if found.
// In addition, it returns the IP address of the current machine on
// the LAN using that gateway.
// This is used as the destination for UPnP, NAT-PMP, PCP, etc queries.
func LikelyHomeRouterIP() (gateway, myIP netip.Addr, ok bool) {
if likelyHomeRouterIP != nil {
gateway, ok = likelyHomeRouterIP()
if !ok {
return
}
}
if !ok {
return
}
ForeachInterfaceAddress(func(i Interface, pfx netip.Prefix) {
if !i.IsUp() {
// Skip interfaces that aren't up.
return
} else if myIP.IsValid() {
// We already have a valid self IP; skip this one.
return
}
ip := pfx.Addr()
if !ip.IsValid() || !ip.Is4() {
// Skip IPs that aren't valid or aren't IPv4, since we
// always return an IPv4 address.
return
}
// If this prefix ("interface") doesn't contain the gateway,
// then we skip it; this can happen if we have multiple valid
// interfaces and the interface with the route to the internet
// is ordered after another valid+running interface.
if !pfx.Contains(gateway) {
return
}
if gateway.IsPrivate() && ip.IsPrivate() {
myIP = ip
ok = true
return
}
})
return gateway, myIP, myIP.IsValid()
}
// isUsableV4 reports whether ip is a usable IPv4 address which could
// conceivably be used to get Internet connectivity. Globally routable and
// private IPv4 addresses are always Usable, and link local 169.254.x.x
// addresses are in some environments.
func isUsableV4(ip netip.Addr) bool {
if !ip.Is4() || ip.IsLoopback() {
return false
}
if ip.IsLinkLocalUnicast() {
switch hostinfo.GetEnvType() {
case hostinfo.AWSLambda:
return true
case hostinfo.AzureAppService:
return true
default:
return false
}
}
return true
}
// isUsableV6 reports whether ip is a usable IPv6 address which could
// conceivably be used to get Internet connectivity. Globally routable
// IPv6 addresses are always Usable, and Unique Local Addresses
// (fc00::/7) are in some environments used with address translation.
func isUsableV6(ip netip.Addr) bool {
return v6Global1.Contains(ip) ||
(ip.Is6() && ip.IsPrivate() && !tsaddr.TailscaleULARange().Contains(ip))
}
var (
v6Global1 = netip.MustParsePrefix("2000::/3")
)
// keepInterfaceInStringSummary reports whether the named interface should be included
// in the String method's summary string.
func (s *State) keepInterfaceInStringSummary(ifName string) bool {
iface, ok := s.Interface[ifName]
if !ok || iface.Interface == nil {
return false
}
if ifName == s.DefaultRouteInterface {
return true
}
up := iface.IsUp()
for _, p := range s.InterfaceIPs[ifName] {
a := p.Addr()
if a.IsLinkLocalUnicast() || a.IsLoopback() {
continue
}
if up || a.IsGlobalUnicast() || a.IsPrivate() {
return true
}
}
return false
}
// isInterestingIP reports whether ip is an interesting IP that we
// should log in interfaces.State logging. We don't need to show
// loopback, link-local addresses, or non-Tailscale ULA addresses.
func isInterestingIP(ip netip.Addr) bool {
if ip.IsLoopback() || ip.IsLinkLocalUnicast() {
return false
}
return true
}
var altNetInterfaces func() ([]Interface, error)
// RegisterInterfaceGetter sets the function that's used to query
// the system network interfaces.
func RegisterInterfaceGetter(getInterfaces func() ([]Interface, error)) {
altNetInterfaces = getInterfaces
}
// List is a list of interfaces on the machine.
type List []Interface
// GetList returns the list of interfaces on the machine.
func GetList() (List, error) {
return netInterfaces()
}
// netInterfaces is a wrapper around the standard library's net.Interfaces
// that returns a []*Interface instead of a []net.Interface.
// It exists because Android SDK 30 no longer permits Go's net.Interfaces
// to work (Issue 2293); this wrapper lets us the Android app register
// an alternate implementation.
func netInterfaces() ([]Interface, error) {
if altNetInterfaces != nil {
return altNetInterfaces()
}
ifs, err := net.Interfaces()
if err != nil {
return nil, err
}
ret := make([]Interface, len(ifs))
for i := range ifs {
ret[i].Interface = &ifs[i]
}
return ret, nil
}
// DefaultRouteDetails are the details about a default route returned
// by DefaultRoute.
type DefaultRouteDetails struct {
// InterfaceName is the interface name. It must always be populated.
// It's like "eth0" (Linux), "Ethernet 2" (Windows), "en0" (macOS).
InterfaceName string
// InterfaceDesc is populated on Windows at least. It's a
// longer description, like "Red Hat VirtIO Ethernet Adapter".
InterfaceDesc string
// InterfaceIndex is like net.Interface.Index.
// Zero means not populated.
InterfaceIndex int
// TODO(bradfitz): break this out into v4-vs-v6 once that need arises.
}
// DefaultRouteInterface is like DefaultRoute but only returns the
// interface name.
func DefaultRouteInterface() (string, error) {
dr, err := DefaultRoute()
if err != nil {
return "", err
}
return dr.InterfaceName, nil
}
// DefaultRoute returns details of the network interface that owns
// the default route, not including any tailscale interfaces.
func DefaultRoute() (DefaultRouteDetails, error) {
return defaultRoute()
}
// HasCGNATInterface reports whether there are any non-Tailscale interfaces that
// use a CGNAT IP range.
func HasCGNATInterface() (bool, error) {
hasCGNATInterface := false
cgnatRange := tsaddr.CGNATRange()
err := ForeachInterface(func(i Interface, pfxs []netip.Prefix) {
if hasCGNATInterface || !i.IsUp() || isTailscaleInterface(i.Name, pfxs) {
return
}
for _, pfx := range pfxs {
if cgnatRange.Overlaps(pfx) {
hasCGNATInterface = true
break
}
}
})
if err != nil {
return false, err
}
return hasCGNATInterface, nil
}
var interfaceDebugExtras func(ifIndex int) (string, error)
// InterfaceDebugExtras returns extra debugging information about an interface
// if any (an empty string will be returned if there are no additional details).
// Formatting is platform-dependent and should not be parsed.
func InterfaceDebugExtras(ifIndex int) (string, error) {
if interfaceDebugExtras != nil {
return interfaceDebugExtras(ifIndex)
}
return "", nil
}