tailscale/net/dns/nm.go

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// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build linux
//lint:file-ignore U1000 refactoring, temporarily unused code.
package dns
import (
"bufio"
"bytes"
"context"
"fmt"
"os"
"sort"
"time"
"github.com/godbus/dbus/v5"
"inet.af/netaddr"
"tailscale.com/util/dnsname"
"tailscale.com/util/endian"
)
const (
highestPriority = int32(-1 << 31)
lowerPriority = int32(200) // lower than all builtin auto priorities
)
// isNMActive determines if NetworkManager is currently managing system DNS settings.
func isNMActive() bool {
ctx, cancel := context.WithTimeout(context.Background(), reconfigTimeout)
defer cancel()
conn, err := dbus.SystemBus()
if err != nil {
// Probably no DBus on this system. Either way, we can't
// control NM without DBus.
return false
}
// Try to ping NetworkManager's DnsManager object. If it responds,
// NM is running and we're allowed to touch it.
nm := conn.Object("org.freedesktop.NetworkManager", dbus.ObjectPath("/org/freedesktop/NetworkManager/DnsManager"))
call := nm.CallWithContext(ctx, "org.freedesktop.DBus.Peer.Ping", 0)
if call.Err != nil {
return false
}
f, err := os.Open("/etc/resolv.conf")
if err != nil {
return false
}
defer f.Close()
scanner := bufio.NewScanner(f)
for scanner.Scan() {
line := scanner.Bytes()
// Look for the word "NetworkManager" until comments end.
if len(line) > 0 && line[0] != '#' {
return false
}
if bytes.Contains(line, []byte("NetworkManager")) {
return true
}
}
return false
}
// nmManager uses the NetworkManager DBus API.
type nmManager struct {
interfaceName string
manager dbus.BusObject
dnsManager dbus.BusObject
}
func newNMManager(interfaceName string) (*nmManager, error) {
conn, err := dbus.SystemBus()
if err != nil {
return nil, err
}
return &nmManager{
interfaceName: interfaceName,
manager: conn.Object("org.freedesktop.NetworkManager", dbus.ObjectPath("/org/freedesktop/NetworkManager")),
dnsManager: conn.Object("org.freedesktop.NetworkManager", dbus.ObjectPath("/org/freedesktop/NetworkManager/DnsManager")),
}, nil
}
type nmConnectionSettings map[string]map[string]dbus.Variant
func (m *nmManager) SetDNS(config OSConfig) error {
ctx, cancel := context.WithTimeout(context.Background(), reconfigTimeout)
defer cancel()
// NetworkManager only lets you set DNS settings on "active"
// connections, which requires an assigned IP address. This got
// configured before the DNS manager was invoked, but it might
// take a little time for the netlink notifications to propagate
// up. So, keep retrying for the duration of the reconfigTimeout.
var err error
for ctx.Err() == nil {
err = m.trySet(ctx, config)
if err == nil {
break
}
time.Sleep(10 * time.Millisecond)
}
return err
}
func (m *nmManager) trySet(ctx context.Context, config OSConfig) error {
conn, err := dbus.SystemBus()
if err != nil {
return fmt.Errorf("connecting to system bus: %w", err)
}
// This is how we get at the DNS settings:
//
// org.freedesktop.NetworkManager
// |
// [GetDeviceByIpIface]
// |
// v
// org.freedesktop.NetworkManager.Device <--------\
// (describes a network interface) |
// | |
// [GetAppliedConnection] [Reapply]
// | |
// v |
// org.freedesktop.NetworkManager.Connection |
// (connection settings) ------/
// contains {dns, dns-priority, dns-search}
//
// Ref: https://developer.gnome.org/NetworkManager/stable/settings-ipv4.html.
nm := conn.Object(
"org.freedesktop.NetworkManager",
dbus.ObjectPath("/org/freedesktop/NetworkManager"),
)
var devicePath dbus.ObjectPath
err = nm.CallWithContext(
ctx, "org.freedesktop.NetworkManager.GetDeviceByIpIface", 0,
m.interfaceName,
).Store(&devicePath)
if err != nil {
return fmt.Errorf("getDeviceByIpIface: %w", err)
}
device := conn.Object("org.freedesktop.NetworkManager", devicePath)
var (
settings nmConnectionSettings
version uint64
)
err = device.CallWithContext(
ctx, "org.freedesktop.NetworkManager.Device.GetAppliedConnection", 0,
uint32(0),
).Store(&settings, &version)
if err != nil {
return fmt.Errorf("getAppliedConnection: %w", err)
}
// Frustratingly, NetworkManager represents IPv4 addresses as uint32s,
// although IPv6 addresses are represented as byte arrays.
// Perform the conversion here.
var (
dnsv4 []uint32
dnsv6 [][]byte
)
for _, ip := range config.Nameservers {
b := ip.As16()
if ip.Is4() {
dnsv4 = append(dnsv4, endian.Native.Uint32(b[12:]))
} else {
dnsv6 = append(dnsv6, b[:])
}
}
general := settings["connection"]
general["llmnr"] = dbus.MakeVariant(0)
general["mdns"] = dbus.MakeVariant(0)
ipv4Map := settings["ipv4"]
ipv4Map["dns"] = dbus.MakeVariant(dnsv4)
ipv4Map["dns-search"] = dbus.MakeVariant(config.SearchDomains)
// We should only request priority if we have nameservers to set.
if len(dnsv4) == 0 {
ipv4Map["dns-priority"] = dbus.MakeVariant(lowerPriority)
} else {
// Negative priority means only the settings from the most
// negative connection get used. The way this mixes with
// per-domain routing is unclear, but it _seems_ that the
// priority applies after routing has found possible
// candidates for a resolution.
ipv4Map["dns-priority"] = dbus.MakeVariant(highestPriority)
}
ipv6Map := settings["ipv6"]
// In IPv6 settings, you're only allowed to provide additional
// static DNS settings in "auto" (SLAAC) or "manual" mode. In
// "manual" mode you also have to specify IP addresses, so we use
// "auto".
//
// NM actually documents that to set just DNS servers, you should
// use "auto" mode and then set ignore auto routes and DNS, which
// basically means "autoconfigure but ignore any autoconfiguration
// results you might get". As a safety, we also say that
// NetworkManager should never try to make us the default route
// (none of its business anyway, we handle our own default
// routing).
ipv6Map["method"] = dbus.MakeVariant("auto")
ipv6Map["ignore-auto-routes"] = dbus.MakeVariant(true)
ipv6Map["ignore-auto-dns"] = dbus.MakeVariant(true)
ipv6Map["never-default"] = dbus.MakeVariant(true)
ipv6Map["dns"] = dbus.MakeVariant(dnsv6)
ipv6Map["dns-search"] = dbus.MakeVariant(config.SearchDomains)
if len(dnsv6) == 0 {
ipv6Map["dns-priority"] = dbus.MakeVariant(lowerPriority)
} else {
ipv6Map["dns-priority"] = dbus.MakeVariant(highestPriority)
}
// deprecatedProperties are the properties in interface settings
// that are deprecated by NetworkManager.
//
// In practice, this means that they are returned for reading,
// but submitting a settings object with them present fails
// with hard-to-diagnose errors. They must be removed.
deprecatedProperties := []string{
"addresses", "routes",
}
for _, property := range deprecatedProperties {
delete(ipv4Map, property)
delete(ipv6Map, property)
}
if call := device.CallWithContext(ctx, "org.freedesktop.NetworkManager.Device.Reapply", 0, settings, version, uint32(0)); call.Err != nil {
return fmt.Errorf("reapply: %w", err)
}
return nil
}
func (m *nmManager) SupportsSplitDNS() bool {
var mode string
v, err := m.dnsManager.GetProperty("org.freedesktop.NetworkManager.DnsManager.Mode")
if err != nil {
return false
}
mode, ok := v.Value().(string)
if !ok {
return false
}
// Per NM's documentation, it only does split-DNS when it's
// programming dnsmasq or systemd-resolved. All other modes are
// primary-only.
return mode == "dnsmasq" || mode == "systemd-resolved"
}
func (m *nmManager) GetBaseConfig() (OSConfig, error) {
conn, err := dbus.SystemBus()
if err != nil {
return OSConfig{}, err
}
nm := conn.Object("org.freedesktop.NetworkManager", dbus.ObjectPath("/org/freedesktop/NetworkManager/DnsManager"))
v, err := nm.GetProperty("org.freedesktop.NetworkManager.DnsManager.Configuration")
if err != nil {
return OSConfig{}, err
}
cfgs, ok := v.Value().([]map[string]dbus.Variant)
if !ok {
return OSConfig{}, fmt.Errorf("unexpected NM config type %T", v.Value())
}
if len(cfgs) == 0 {
return OSConfig{}, nil
}
type dnsPrio struct {
resolvers []netaddr.IP
domains []string
priority int32
}
order := make([]dnsPrio, 0, len(cfgs)-1)
for _, cfg := range cfgs {
if name, ok := cfg["interface"]; ok {
if s, ok := name.Value().(string); ok && s == m.interfaceName {
// Config for the taislcale interface, skip.
continue
}
}
var p dnsPrio
if v, ok := cfg["nameservers"]; ok {
if ips, ok := v.Value().([]string); ok {
for _, s := range ips {
ip, err := netaddr.ParseIP(s)
if err != nil {
// hmm, what do? Shouldn't really happen.
continue
}
p.resolvers = append(p.resolvers, ip)
}
}
}
if v, ok := cfg["domains"]; ok {
if domains, ok := v.Value().([]string); ok {
p.domains = domains
}
}
if v, ok := cfg["priority"]; ok {
if prio, ok := v.Value().(int32); ok {
p.priority = prio
}
}
order = append(order, p)
}
sort.Slice(order, func(i, j int) bool {
return order[i].priority < order[j].priority
})
var (
ret OSConfig
seenResolvers = map[netaddr.IP]bool{}
seenSearch = map[string]bool{}
)
for _, cfg := range order {
for _, resolver := range cfg.resolvers {
if seenResolvers[resolver] {
continue
}
ret.Nameservers = append(ret.Nameservers, resolver)
seenResolvers[resolver] = true
}
for _, dom := range cfg.domains {
if seenSearch[dom] {
continue
}
fqdn, err := dnsname.ToFQDN(dom)
if err != nil {
continue
}
ret.SearchDomains = append(ret.SearchDomains, fqdn)
seenSearch[dom] = true
}
if cfg.priority < 0 {
// exclusive configurations preempt all other
// configurations, so we're done.
break
}
}
return ret, nil
}
func (m *nmManager) Close() error {
// No need to do anything on close, NetworkManager will delete our
// settings when the tailscale interface goes away.
return nil
}