mihomo/dns/resolver.go
gVisor bot e5eab112d0 feta: add hosts support domain and mulitple ip (#439)
* feat: host support domain and multiple ips

* chore: append local address via `clash`

* chore: update hosts demo

* chore: unified parse mixed string and array

* fix: flatten cname

* chore: adjust logic

* chore: reuse code

* chore: use cname in tunnel

* chore: try use domain mapping when normal dns

* chore: format code
2023-03-12 15:00:59 +08:00

523 lines
13 KiB
Go

package dns
import (
"context"
"errors"
"fmt"
"net/netip"
"strings"
"time"
"go.uber.org/atomic"
"github.com/Dreamacro/clash/common/cache"
"github.com/Dreamacro/clash/component/fakeip"
"github.com/Dreamacro/clash/component/geodata/router"
"github.com/Dreamacro/clash/component/resolver"
"github.com/Dreamacro/clash/component/trie"
C "github.com/Dreamacro/clash/constant"
"github.com/Dreamacro/clash/log"
D "github.com/miekg/dns"
"github.com/zhangyunhao116/fastrand"
"golang.org/x/sync/singleflight"
)
type dnsClient interface {
Exchange(m *D.Msg) (msg *D.Msg, err error)
ExchangeContext(ctx context.Context, m *D.Msg) (msg *D.Msg, err error)
Address() string
}
type result struct {
Msg *D.Msg
Error error
}
type geositePolicyRecord struct {
matcher fallbackDomainFilter
policy *Policy
inversedMatching bool
}
type Resolver struct {
ipv6 bool
ipv6Timeout time.Duration
hosts *trie.DomainTrie[resolver.HostValue]
main []dnsClient
fallback []dnsClient
fallbackDomainFilters []fallbackDomainFilter
fallbackIPFilters []fallbackIPFilter
group singleflight.Group
lruCache *cache.LruCache[string, *D.Msg]
policy *trie.DomainTrie[*Policy]
geositePolicy []geositePolicyRecord
proxyServer []dnsClient
}
func (r *Resolver) LookupIPPrimaryIPv4(ctx context.Context, host string) (ips []netip.Addr, err error) {
ch := make(chan []netip.Addr, 1)
go func() {
defer close(ch)
ip, err := r.lookupIP(ctx, host, D.TypeAAAA)
if err != nil {
return
}
ch <- ip
}()
ips, err = r.lookupIP(ctx, host, D.TypeA)
if err == nil {
return
}
ip, open := <-ch
if !open {
return nil, resolver.ErrIPNotFound
}
return ip, nil
}
func (r *Resolver) LookupIP(ctx context.Context, host string) (ips []netip.Addr, err error) {
ch := make(chan []netip.Addr, 1)
go func() {
defer close(ch)
ip, err := r.lookupIP(ctx, host, D.TypeAAAA)
if err != nil {
return
}
ch <- ip
}()
ips, err = r.lookupIP(ctx, host, D.TypeA)
var waitIPv6 *time.Timer
if r != nil {
waitIPv6 = time.NewTimer(r.ipv6Timeout)
} else {
waitIPv6 = time.NewTimer(100 * time.Millisecond)
}
defer waitIPv6.Stop()
select {
case ipv6s, open := <-ch:
if !open && err != nil {
return nil, resolver.ErrIPNotFound
}
ips = append(ips, ipv6s...)
case <-waitIPv6.C:
// wait ipv6 result
}
return ips, nil
}
// ResolveIP request with TypeA and TypeAAAA, priority return TypeA
func (r *Resolver) ResolveIP(ctx context.Context, host string) (ip netip.Addr, err error) {
ips, err := r.LookupIPPrimaryIPv4(ctx, host)
if err != nil {
return netip.Addr{}, err
} else if len(ips) == 0 {
return netip.Addr{}, fmt.Errorf("%w: %s", resolver.ErrIPNotFound, host)
}
return ips[fastrand.Intn(len(ips))], nil
}
// LookupIPv4 request with TypeA
func (r *Resolver) LookupIPv4(ctx context.Context, host string) ([]netip.Addr, error) {
return r.lookupIP(ctx, host, D.TypeA)
}
// ResolveIPv4 request with TypeA
func (r *Resolver) ResolveIPv4(ctx context.Context, host string) (ip netip.Addr, err error) {
ips, err := r.lookupIP(ctx, host, D.TypeA)
if err != nil {
return netip.Addr{}, err
} else if len(ips) == 0 {
return netip.Addr{}, fmt.Errorf("%w: %s", resolver.ErrIPNotFound, host)
}
return ips[fastrand.Intn(len(ips))], nil
}
// LookupIPv6 request with TypeAAAA
func (r *Resolver) LookupIPv6(ctx context.Context, host string) ([]netip.Addr, error) {
return r.lookupIP(ctx, host, D.TypeAAAA)
}
// ResolveIPv6 request with TypeAAAA
func (r *Resolver) ResolveIPv6(ctx context.Context, host string) (ip netip.Addr, err error) {
ips, err := r.lookupIP(ctx, host, D.TypeAAAA)
if err != nil {
return netip.Addr{}, err
} else if len(ips) == 0 {
return netip.Addr{}, fmt.Errorf("%w: %s", resolver.ErrIPNotFound, host)
}
return ips[fastrand.Intn(len(ips))], nil
}
func (r *Resolver) shouldIPFallback(ip netip.Addr) bool {
for _, filter := range r.fallbackIPFilters {
if filter.Match(ip) {
return true
}
}
return false
}
// Exchange a batch of dns request, and it use cache
func (r *Resolver) Exchange(m *D.Msg) (msg *D.Msg, err error) {
return r.ExchangeContext(context.Background(), m)
}
// ExchangeContext a batch of dns request with context.Context, and it use cache
func (r *Resolver) ExchangeContext(ctx context.Context, m *D.Msg) (msg *D.Msg, err error) {
if len(m.Question) == 0 {
return nil, errors.New("should have one question at least")
}
continueFetch := false
defer func() {
if continueFetch || errors.Is(err, context.DeadlineExceeded) || errors.Is(err, context.Canceled) {
go func() {
ctx, cancel := context.WithTimeout(context.Background(), resolver.DefaultDNSTimeout)
defer cancel()
_, _ = r.exchangeWithoutCache(ctx, m) // ignore result, just for putMsgToCache
}()
}
}()
q := m.Question[0]
cacheM, expireTime, hit := r.lruCache.GetWithExpire(q.String())
if hit {
now := time.Now()
msg = cacheM.Copy()
if expireTime.Before(now) {
setMsgTTL(msg, uint32(1)) // Continue fetch
continueFetch = true
} else {
setMsgTTL(msg, uint32(time.Until(expireTime).Seconds()))
}
return
}
return r.exchangeWithoutCache(ctx, m)
}
// ExchangeWithoutCache a batch of dns request, and it do NOT GET from cache
func (r *Resolver) exchangeWithoutCache(ctx context.Context, m *D.Msg) (msg *D.Msg, err error) {
q := m.Question[0]
retryNum := 0
retryMax := 3
fn := func() (result any, err error) {
ctx, cancel := context.WithTimeout(context.Background(), resolver.DefaultDNSTimeout) // reset timeout in singleflight
defer cancel()
defer func() {
if err != nil {
result = retryNum
retryNum++
return
}
msg := result.(*D.Msg)
putMsgToCache(r.lruCache, q.String(), msg)
}()
isIPReq := isIPRequest(q)
if isIPReq {
return r.ipExchange(ctx, m)
}
if matched := r.matchPolicy(m); len(matched) != 0 {
return r.batchExchange(ctx, matched, m)
}
return r.batchExchange(ctx, r.main, m)
}
ch := r.group.DoChan(q.String(), fn)
var result singleflight.Result
select {
case result = <-ch:
break
case <-ctx.Done():
select {
case result = <-ch: // maybe ctxDone and chFinish in same time, get DoChan's result as much as possible
break
default:
go func() { // start a retrying monitor in background
result := <-ch
ret, err, shared := result.Val, result.Err, result.Shared
if err != nil && !shared && ret.(int) < retryMax { // retry
r.group.DoChan(q.String(), fn)
}
}()
return nil, ctx.Err()
}
}
ret, err, shared := result.Val, result.Err, result.Shared
if err != nil && !shared && ret.(int) < retryMax { // retry
r.group.DoChan(q.String(), fn)
}
if err == nil {
msg = ret.(*D.Msg)
if shared {
msg = msg.Copy()
}
}
return
}
func (r *Resolver) batchExchange(ctx context.Context, clients []dnsClient, m *D.Msg) (msg *D.Msg, err error) {
ctx, cancel := context.WithTimeout(ctx, resolver.DefaultDNSTimeout)
defer cancel()
return batchExchange(ctx, clients, m)
}
func (r *Resolver) matchPolicy(m *D.Msg) []dnsClient {
if r.policy == nil {
return nil
}
domain := msgToDomain(m)
if domain == "" {
return nil
}
record := r.policy.Search(domain)
if record != nil {
p := record.Data()
return p.GetData()
}
for _, geositeRecord := range r.geositePolicy {
matched := geositeRecord.matcher.Match(domain)
if matched != geositeRecord.inversedMatching {
return geositeRecord.policy.GetData()
}
}
return nil
}
func (r *Resolver) shouldOnlyQueryFallback(m *D.Msg) bool {
if r.fallback == nil || len(r.fallbackDomainFilters) == 0 {
return false
}
domain := msgToDomain(m)
if domain == "" {
return false
}
for _, df := range r.fallbackDomainFilters {
if df.Match(domain) {
return true
}
}
return false
}
func (r *Resolver) ipExchange(ctx context.Context, m *D.Msg) (msg *D.Msg, err error) {
if matched := r.matchPolicy(m); len(matched) != 0 {
res := <-r.asyncExchange(ctx, matched, m)
return res.Msg, res.Error
}
onlyFallback := r.shouldOnlyQueryFallback(m)
if onlyFallback {
res := <-r.asyncExchange(ctx, r.fallback, m)
return res.Msg, res.Error
}
msgCh := r.asyncExchange(ctx, r.main, m)
if r.fallback == nil || len(r.fallback) == 0 { // directly return if no fallback servers are available
res := <-msgCh
msg, err = res.Msg, res.Error
return
}
res := <-msgCh
if res.Error == nil {
if ips := msgToIP(res.Msg); len(ips) != 0 {
if !r.shouldIPFallback(ips[0]) {
msg, err = res.Msg, res.Error // no need to wait for fallback result
return
}
}
}
res = <-r.asyncExchange(ctx, r.fallback, m)
msg, err = res.Msg, res.Error
return
}
func (r *Resolver) lookupIP(ctx context.Context, host string, dnsType uint16) (ips []netip.Addr, err error) {
ip, err := netip.ParseAddr(host)
if err == nil {
isIPv4 := ip.Is4()
if dnsType == D.TypeAAAA && !isIPv4 {
return []netip.Addr{ip}, nil
} else if dnsType == D.TypeA && isIPv4 {
return []netip.Addr{ip}, nil
} else {
return []netip.Addr{}, resolver.ErrIPVersion
}
}
query := &D.Msg{}
query.SetQuestion(D.Fqdn(host), dnsType)
msg, err := r.ExchangeContext(ctx, query)
if err != nil {
return []netip.Addr{}, err
}
ips = msgToIP(msg)
ipLength := len(ips)
if ipLength == 0 {
return []netip.Addr{}, resolver.ErrIPNotFound
}
return
}
func (r *Resolver) asyncExchange(ctx context.Context, client []dnsClient, msg *D.Msg) <-chan *result {
ch := make(chan *result, 1)
go func() {
res, err := r.batchExchange(ctx, client, msg)
ch <- &result{Msg: res, Error: err}
}()
return ch
}
// HasProxyServer has proxy server dns client
func (r *Resolver) HasProxyServer() bool {
return len(r.main) > 0
}
type NameServer struct {
Net string
Addr string
Interface *atomic.String
ProxyAdapter string
Params map[string]string
PreferH3 bool
}
type FallbackFilter struct {
GeoIP bool
GeoIPCode string
IPCIDR []*netip.Prefix
Domain []string
GeoSite []*router.DomainMatcher
}
type Config struct {
Main, Fallback []NameServer
Default []NameServer
ProxyServer []NameServer
IPv6 bool
IPv6Timeout uint
EnhancedMode C.DNSMode
FallbackFilter FallbackFilter
Pool *fakeip.Pool
Hosts *trie.DomainTrie[resolver.HostValue]
Policy map[string][]NameServer
}
func NewResolver(config Config) *Resolver {
defaultResolver := &Resolver{
main: transform(config.Default, nil),
lruCache: cache.New(cache.WithSize[string, *D.Msg](4096), cache.WithStale[string, *D.Msg](true)),
ipv6Timeout: time.Duration(config.IPv6Timeout) * time.Millisecond,
}
r := &Resolver{
ipv6: config.IPv6,
main: transform(config.Main, defaultResolver),
lruCache: cache.New(cache.WithSize[string, *D.Msg](4096), cache.WithStale[string, *D.Msg](true)),
hosts: config.Hosts,
ipv6Timeout: time.Duration(config.IPv6Timeout) * time.Millisecond,
}
if len(config.Fallback) != 0 {
r.fallback = transform(config.Fallback, defaultResolver)
}
if len(config.ProxyServer) != 0 {
r.proxyServer = transform(config.ProxyServer, defaultResolver)
}
if len(config.Policy) != 0 {
r.policy = trie.New[*Policy]()
for domain, nameserver := range config.Policy {
if strings.HasPrefix(strings.ToLower(domain), "geosite:") {
groupname := domain[8:]
inverse := false
if strings.HasPrefix(groupname, "!") {
inverse = true
groupname = groupname[1:]
}
log.Debugln("adding geosite policy: %s inversed %t", groupname, inverse)
matcher, err := NewGeoSite(groupname)
if err != nil {
continue
}
r.geositePolicy = append(r.geositePolicy, geositePolicyRecord{
matcher: matcher,
policy: NewPolicy(transform(nameserver, defaultResolver)),
inversedMatching: inverse,
})
} else {
_ = r.policy.Insert(domain, NewPolicy(transform(nameserver, defaultResolver)))
}
}
r.policy.Optimize()
}
fallbackIPFilters := []fallbackIPFilter{}
if config.FallbackFilter.GeoIP {
fallbackIPFilters = append(fallbackIPFilters, &geoipFilter{
code: config.FallbackFilter.GeoIPCode,
})
}
for _, ipnet := range config.FallbackFilter.IPCIDR {
fallbackIPFilters = append(fallbackIPFilters, &ipnetFilter{ipnet: ipnet})
}
r.fallbackIPFilters = fallbackIPFilters
fallbackDomainFilters := []fallbackDomainFilter{}
if len(config.FallbackFilter.Domain) != 0 {
fallbackDomainFilters = append(fallbackDomainFilters, NewDomainFilter(config.FallbackFilter.Domain))
}
if len(config.FallbackFilter.GeoSite) != 0 {
fallbackDomainFilters = append(fallbackDomainFilters, &geoSiteFilter{
matchers: config.FallbackFilter.GeoSite,
})
}
r.fallbackDomainFilters = fallbackDomainFilters
return r
}
func NewProxyServerHostResolver(old *Resolver) *Resolver {
r := &Resolver{
ipv6: old.ipv6,
main: old.proxyServer,
lruCache: old.lruCache,
hosts: old.hosts,
policy: old.policy,
ipv6Timeout: old.ipv6Timeout,
}
return r
}