package tunnel import ( "context" "errors" "fmt" "net" "net/netip" "path/filepath" "runtime" "strings" "sync" "time" N "github.com/metacubex/mihomo/common/net" "github.com/metacubex/mihomo/common/utils" "github.com/metacubex/mihomo/component/loopback" "github.com/metacubex/mihomo/component/nat" P "github.com/metacubex/mihomo/component/process" "github.com/metacubex/mihomo/component/resolver" "github.com/metacubex/mihomo/component/slowdown" "github.com/metacubex/mihomo/component/sniffer" C "github.com/metacubex/mihomo/constant" "github.com/metacubex/mihomo/constant/features" "github.com/metacubex/mihomo/constant/provider" icontext "github.com/metacubex/mihomo/context" "github.com/metacubex/mihomo/log" "github.com/metacubex/mihomo/tunnel/statistic" ) var ( status = newAtomicStatus(Suspend) tcpQueue = make(chan C.ConnContext, 200) udpQueue = make(chan C.PacketAdapter, 200) natTable = nat.New() rules []C.Rule listeners = make(map[string]C.InboundListener) subRules map[string][]C.Rule proxies = make(map[string]C.Proxy) providers map[string]provider.ProxyProvider ruleProviders map[string]provider.RuleProvider sniffingEnable = false configMux sync.RWMutex // Outbound Rule mode = Rule // default timeout for UDP session udpTimeout = 60 * time.Second findProcessMode P.FindProcessMode fakeIPRange netip.Prefix ruleUpdateCallback = utils.NewCallback[provider.RuleProvider]() ) type tunnel struct{} var Tunnel = tunnel{} var _ C.Tunnel = Tunnel var _ provider.Tunnel = Tunnel func (t tunnel) HandleTCPConn(conn net.Conn, metadata *C.Metadata) { connCtx := icontext.NewConnContext(conn, metadata) handleTCPConn(connCtx) } func (t tunnel) HandleUDPPacket(packet C.UDPPacket, metadata *C.Metadata) { packetAdapter := C.NewPacketAdapter(packet, metadata) select { case udpQueue <- packetAdapter: default: } } func (t tunnel) NatTable() C.NatTable { return natTable } func (t tunnel) Providers() map[string]provider.ProxyProvider { return providers } func (t tunnel) RuleProviders() map[string]provider.RuleProvider { return ruleProviders } func (t tunnel) RuleUpdateCallback() *utils.Callback[provider.RuleProvider] { return ruleUpdateCallback } func OnSuspend() { status.Store(Suspend) } func OnInnerLoading() { status.Store(Inner) } func OnRunning() { status.Store(Running) } func Status() TunnelStatus { return status.Load() } func SetFakeIPRange(p netip.Prefix) { fakeIPRange = p } func FakeIPRange() netip.Prefix { return fakeIPRange } func SetSniffing(b bool) { if sniffer.Dispatcher.Enable() { configMux.Lock() sniffingEnable = b configMux.Unlock() } } func IsSniffing() bool { return sniffingEnable } func init() { go process() } // TCPIn return fan-in queue // Deprecated: using Tunnel instead func TCPIn() chan<- C.ConnContext { return tcpQueue } // UDPIn return fan-in udp queue // Deprecated: using Tunnel instead func UDPIn() chan<- C.PacketAdapter { return udpQueue } // NatTable return nat table func NatTable() C.NatTable { return natTable } // Rules return all rules func Rules() []C.Rule { return rules } func Listeners() map[string]C.InboundListener { return listeners } // UpdateRules handle update rules func UpdateRules(newRules []C.Rule, newSubRule map[string][]C.Rule, rp map[string]provider.RuleProvider) { configMux.Lock() rules = newRules ruleProviders = rp subRules = newSubRule configMux.Unlock() } // Proxies return all proxies func Proxies() map[string]C.Proxy { return proxies } func ProxiesWithProviders() map[string]C.Proxy { allProxies := make(map[string]C.Proxy) for name, proxy := range proxies { allProxies[name] = proxy } for _, p := range providers { for _, proxy := range p.Proxies() { name := proxy.Name() allProxies[name] = proxy } } return allProxies } // Providers return all compatible providers func Providers() map[string]provider.ProxyProvider { return providers } // RuleProviders return all loaded rule providers func RuleProviders() map[string]provider.RuleProvider { return ruleProviders } // UpdateProxies handle update proxies func UpdateProxies(newProxies map[string]C.Proxy, newProviders map[string]provider.ProxyProvider) { configMux.Lock() proxies = newProxies providers = newProviders configMux.Unlock() } func UpdateListeners(newListeners map[string]C.InboundListener) { configMux.Lock() defer configMux.Unlock() listeners = newListeners } func UpdateSniffer(dispatcher *sniffer.SnifferDispatcher) { configMux.Lock() sniffer.Dispatcher = dispatcher sniffingEnable = dispatcher.Enable() configMux.Unlock() } // Mode return current mode func Mode() TunnelMode { return mode } // SetMode change the mode of tunnel func SetMode(m TunnelMode) { mode = m } // SetFindProcessMode replace SetAlwaysFindProcess // always find process info if legacyAlways = true or mode.Always() = true, may be increase many memory func SetFindProcessMode(mode P.FindProcessMode) { findProcessMode = mode } func isHandle(t C.Type) bool { status := status.Load() return status == Running || (status == Inner && t == C.INNER) } // processUDP starts a loop to handle udp packet func processUDP() { queue := udpQueue for conn := range queue { handleUDPConn(conn) } } func process() { numUDPWorkers := 4 if num := runtime.GOMAXPROCS(0); num > numUDPWorkers { numUDPWorkers = num } for i := 0; i < numUDPWorkers; i++ { go processUDP() } queue := tcpQueue for conn := range queue { go handleTCPConn(conn) } } func needLookupIP(metadata *C.Metadata) bool { return resolver.MappingEnabled() && metadata.Host == "" && metadata.DstIP.IsValid() } func preHandleMetadata(metadata *C.Metadata) error { // handle IP string on host if ip, err := netip.ParseAddr(metadata.Host); err == nil { metadata.DstIP = ip metadata.Host = "" } // preprocess enhanced-mode metadata if needLookupIP(metadata) { host, exist := resolver.FindHostByIP(metadata.DstIP) if exist { metadata.Host = host metadata.DNSMode = C.DNSMapping if resolver.FakeIPEnabled() { metadata.DstIP = netip.Addr{} metadata.DNSMode = C.DNSFakeIP } else if node, ok := resolver.DefaultHosts.Search(host, false); ok { // redir-host should lookup the hosts metadata.DstIP, _ = node.RandIP() } else if node != nil && node.IsDomain { metadata.Host = node.Domain } } else if resolver.IsFakeIP(metadata.DstIP) { return fmt.Errorf("fake DNS record %s missing", metadata.DstIP) } } else if node, ok := resolver.DefaultHosts.Search(metadata.Host, true); ok { // try use domain mapping metadata.Host = node.Domain } return nil } func resolveMetadata(metadata *C.Metadata) (proxy C.Proxy, rule C.Rule, err error) { if metadata.SpecialProxy != "" { var exist bool proxy, exist = proxies[metadata.SpecialProxy] if !exist { err = fmt.Errorf("proxy %s not found", metadata.SpecialProxy) } return } switch mode { case Direct: proxy = proxies["DIRECT"] case Global: proxy = proxies["GLOBAL"] // Rule default: proxy, rule, err = match(metadata) } return } func handleUDPConn(packet C.PacketAdapter) { if !isHandle(packet.Metadata().Type) { packet.Drop() return } metadata := packet.Metadata() if !metadata.Valid() { packet.Drop() log.Warnln("[Metadata] not valid: %#v", metadata) return } // make a fAddr if request ip is fakeip var fAddr netip.Addr if resolver.IsExistFakeIP(metadata.DstIP) { fAddr = metadata.DstIP } if err := preHandleMetadata(metadata); err != nil { packet.Drop() log.Debugln("[Metadata PreHandle] error: %s", err) return } if sniffer.Dispatcher.Enable() && sniffingEnable { sniffer.Dispatcher.UDPSniff(packet) } // local resolve UDP dns if !metadata.Resolved() { ip, err := resolver.ResolveIP(context.Background(), metadata.Host) if err != nil { return } metadata.DstIP = ip } key := packet.LocalAddr().String() handle := func() bool { pc, proxy := natTable.Get(key) if pc != nil { if proxy != nil { proxy.UpdateWriteBack(packet) } _ = handleUDPToRemote(packet, pc, metadata) return true } return false } if handle() { packet.Drop() return } cond, loaded := natTable.GetOrCreateLock(key) go func() { defer packet.Drop() if loaded { cond.L.Lock() cond.Wait() handle() cond.L.Unlock() return } defer func() { natTable.DeleteLock(key) cond.Broadcast() }() proxy, rule, err := resolveMetadata(metadata) if err != nil { log.Warnln("[UDP] Parse metadata failed: %s", err.Error()) return } ctx, cancel := context.WithTimeout(context.Background(), C.DefaultUDPTimeout) defer cancel() rawPc, err := retry(ctx, func(ctx context.Context) (C.PacketConn, error) { return proxy.ListenPacketContext(ctx, metadata.Pure()) }, func(err error) { logMetadataErr(metadata, rule, proxy, err) }) if err != nil { return } logMetadata(metadata, rule, rawPc) pc := statistic.NewUDPTracker(rawPc, statistic.DefaultManager, metadata, rule, 0, 0, true) if rawPc.Chains().Last() == "REJECT-DROP" { pc.Close() return } oAddrPort := metadata.AddrPort() writeBackProxy := nat.NewWriteBackProxy(packet) natTable.Set(key, pc, writeBackProxy) go handleUDPToLocal(writeBackProxy, pc, key, oAddrPort, fAddr) handle() }() } func handleTCPConn(connCtx C.ConnContext) { if !isHandle(connCtx.Metadata().Type) { _ = connCtx.Conn().Close() return } defer func(conn net.Conn) { _ = conn.Close() }(connCtx.Conn()) metadata := connCtx.Metadata() if !metadata.Valid() { log.Warnln("[Metadata] not valid: %#v", metadata) return } preHandleFailed := false if err := preHandleMetadata(metadata); err != nil { log.Debugln("[Metadata PreHandle] error: %s", err) preHandleFailed = true } conn := connCtx.Conn() conn.ResetPeeked() // reset before sniffer if sniffer.Dispatcher.Enable() && sniffingEnable { // Try to sniff a domain when `preHandleMetadata` failed, this is usually // caused by a "Fake DNS record missing" error when enhanced-mode is fake-ip. if sniffer.Dispatcher.TCPSniff(conn, metadata) { // we now have a domain name preHandleFailed = false } } // If both trials have failed, we can do nothing but give up if preHandleFailed { log.Debugln("[Metadata PreHandle] failed to sniff a domain for connection %s --> %s, give up", metadata.SourceDetail(), metadata.RemoteAddress()) return } peekMutex := sync.Mutex{} if !conn.Peeked() { peekMutex.Lock() go func() { defer peekMutex.Unlock() _ = conn.SetReadDeadline(time.Now().Add(200 * time.Millisecond)) _, _ = conn.Peek(1) _ = conn.SetReadDeadline(time.Time{}) }() } proxy, rule, err := resolveMetadata(metadata) if err != nil { log.Warnln("[Metadata] parse failed: %s", err.Error()) return } dialMetadata := metadata if len(metadata.Host) > 0 { if node, ok := resolver.DefaultHosts.Search(metadata.Host, false); ok { if dstIp, _ := node.RandIP(); !FakeIPRange().Contains(dstIp) { dialMetadata.DstIP = dstIp dialMetadata.DNSMode = C.DNSHosts dialMetadata = dialMetadata.Pure() } } } var peekBytes []byte var peekLen int ctx, cancel := context.WithTimeout(context.Background(), C.DefaultTCPTimeout) defer cancel() remoteConn, err := retry(ctx, func(ctx context.Context) (remoteConn C.Conn, err error) { remoteConn, err = proxy.DialContext(ctx, dialMetadata) if err != nil { return } if N.NeedHandshake(remoteConn) { defer func() { for _, chain := range remoteConn.Chains() { if chain == "REJECT" { err = nil return } } if err != nil { remoteConn = nil } }() peekMutex.Lock() defer peekMutex.Unlock() peekBytes, _ = conn.Peek(conn.Buffered()) _, err = remoteConn.Write(peekBytes) if err != nil { return } if peekLen = len(peekBytes); peekLen > 0 { _, _ = conn.Discard(peekLen) } } return }, func(err error) { logMetadataErr(metadata, rule, proxy, err) }) if err != nil { return } logMetadata(metadata, rule, remoteConn) remoteConn = statistic.NewTCPTracker(remoteConn, statistic.DefaultManager, metadata, rule, 0, int64(peekLen), true) defer func(remoteConn C.Conn) { _ = remoteConn.Close() }(remoteConn) _ = conn.SetReadDeadline(time.Now()) // stop unfinished peek peekMutex.Lock() defer peekMutex.Unlock() _ = conn.SetReadDeadline(time.Time{}) // reset handleSocket(conn, remoteConn) } func logMetadataErr(metadata *C.Metadata, rule C.Rule, proxy C.ProxyAdapter, err error) { if rule == nil { log.Warnln("[%s] dial %s %s --> %s error: %s", strings.ToUpper(metadata.NetWork.String()), proxy.Name(), metadata.SourceDetail(), metadata.RemoteAddress(), err.Error()) } else { log.Warnln("[%s] dial %s (match %s/%s) %s --> %s error: %s", strings.ToUpper(metadata.NetWork.String()), proxy.Name(), rule.RuleType().String(), rule.Payload(), metadata.SourceDetail(), metadata.RemoteAddress(), err.Error()) } } func logMetadata(metadata *C.Metadata, rule C.Rule, remoteConn C.Connection) { switch { case metadata.SpecialProxy != "": log.Infoln("[%s] %s --> %s using %s", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress(), metadata.SpecialProxy) case rule != nil: if rule.Payload() != "" { log.Infoln("[%s] %s --> %s match %s using %s", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress(), fmt.Sprintf("%s(%s)", rule.RuleType().String(), rule.Payload()), remoteConn.Chains().String()) } else { log.Infoln("[%s] %s --> %s match %s using %s", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress(), rule.RuleType().String(), remoteConn.Chains().String()) } case mode == Global: log.Infoln("[%s] %s --> %s using GLOBAL", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress()) case mode == Direct: log.Infoln("[%s] %s --> %s using DIRECT", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress()) default: log.Infoln("[%s] %s --> %s doesn't match any rule using %s", strings.ToUpper(metadata.NetWork.String()), metadata.SourceDetail(), metadata.RemoteAddress(), remoteConn.Chains().Last()) } } func shouldResolveIP(rule C.Rule, metadata *C.Metadata) bool { return rule.ShouldResolveIP() && metadata.Host != "" && !metadata.DstIP.IsValid() } func match(metadata *C.Metadata) (C.Proxy, C.Rule, error) { configMux.RLock() defer configMux.RUnlock() var ( resolved bool attemptProcessLookup = metadata.Type != C.INNER ) if node, ok := resolver.DefaultHosts.Search(metadata.Host, false); ok { metadata.DstIP, _ = node.RandIP() resolved = true } for _, rule := range getRules(metadata) { if !resolved && shouldResolveIP(rule, metadata) { func() { ctx, cancel := context.WithTimeout(context.Background(), resolver.DefaultDNSTimeout) defer cancel() ip, err := resolver.ResolveIP(ctx, metadata.Host) if err != nil { log.Debugln("[DNS] resolve %s error: %s", metadata.Host, err.Error()) } else { log.Debugln("[DNS] %s --> %s", metadata.Host, ip.String()) metadata.DstIP = ip } resolved = true }() } if attemptProcessLookup && !findProcessMode.Off() && (findProcessMode.Always() || rule.ShouldFindProcess()) { attemptProcessLookup = false if !features.CMFA { // normal check for process uid, path, err := P.FindProcessName(metadata.NetWork.String(), metadata.SrcIP, int(metadata.SrcPort)) if err != nil { log.Debugln("[Process] find process %s error: %v", metadata.String(), err) } else { metadata.Process = filepath.Base(path) metadata.ProcessPath = path metadata.Uid = uid if pkg, err := P.FindPackageName(metadata); err == nil { // for android (not CMFA) package names metadata.Process = pkg } } } else { // check package names pkg, err := P.FindPackageName(metadata) if err != nil { log.Debugln("[Process] find process %s error: %v", metadata.String(), err) } else { metadata.Process = pkg } } } if matched, ada := rule.Match(metadata); matched { adapter, ok := proxies[ada] if !ok { continue } // parse multi-layer nesting passed := false for adapter := adapter; adapter != nil; adapter = adapter.Unwrap(metadata, false) { if adapter.Type() == C.Pass { passed = true break } } if passed { log.Debugln("%s match Pass rule", adapter.Name()) continue } if metadata.NetWork == C.UDP && !adapter.SupportUDP() { log.Debugln("%s UDP is not supported", adapter.Name()) continue } return adapter, rule, nil } } return proxies["DIRECT"], nil, nil } func getRules(metadata *C.Metadata) []C.Rule { if sr, ok := subRules[metadata.SpecialRules]; ok { log.Debugln("[Rule] use %s rules", metadata.SpecialRules) return sr } else { log.Debugln("[Rule] use default rules") return rules } } func shouldStopRetry(err error) bool { if errors.Is(err, resolver.ErrIPNotFound) { return true } if errors.Is(err, resolver.ErrIPVersion) { return true } if errors.Is(err, resolver.ErrIPv6Disabled) { return true } if errors.Is(err, loopback.ErrReject) { return true } return false } func retry[T any](ctx context.Context, ft func(context.Context) (T, error), fe func(err error)) (t T, err error) { s := slowdown.New() for i := 0; i < 10; i++ { t, err = ft(ctx) if err != nil { if fe != nil { fe(err) } if shouldStopRetry(err) { return } if s.Wait(ctx) == nil { continue } else { return } } else { break } } return }