sing-box/route/router.go
2023-12-18 22:25:53 +08:00

1127 lines
37 KiB
Go

package route
import (
"context"
"errors"
"net"
"net/netip"
"net/url"
"os"
"os/user"
"strings"
"time"
"github.com/sagernet/sing-box/adapter"
"github.com/sagernet/sing-box/common/conntrack"
"github.com/sagernet/sing-box/common/dialer"
"github.com/sagernet/sing-box/common/geoip"
"github.com/sagernet/sing-box/common/geosite"
"github.com/sagernet/sing-box/common/process"
"github.com/sagernet/sing-box/common/sniff"
C "github.com/sagernet/sing-box/constant"
"github.com/sagernet/sing-box/experimental/libbox/platform"
"github.com/sagernet/sing-box/log"
"github.com/sagernet/sing-box/ntp"
"github.com/sagernet/sing-box/option"
"github.com/sagernet/sing-box/outbound"
"github.com/sagernet/sing-box/transport/fakeip"
"github.com/sagernet/sing-dns"
mux "github.com/sagernet/sing-mux"
"github.com/sagernet/sing-tun"
"github.com/sagernet/sing-vmess"
"github.com/sagernet/sing/common"
"github.com/sagernet/sing/common/buf"
"github.com/sagernet/sing/common/bufio"
"github.com/sagernet/sing/common/bufio/deadline"
"github.com/sagernet/sing/common/control"
E "github.com/sagernet/sing/common/exceptions"
F "github.com/sagernet/sing/common/format"
M "github.com/sagernet/sing/common/metadata"
N "github.com/sagernet/sing/common/network"
serviceNTP "github.com/sagernet/sing/common/ntp"
"github.com/sagernet/sing/common/task"
"github.com/sagernet/sing/common/uot"
"github.com/sagernet/sing/service"
"github.com/sagernet/sing/service/pause"
)
var _ adapter.Router = (*Router)(nil)
type Router struct {
ctx context.Context
logger log.ContextLogger
dnsLogger log.ContextLogger
inboundByTag map[string]adapter.Inbound
outbounds []adapter.Outbound
outboundByTag map[string]adapter.Outbound
rules []adapter.Rule
defaultDetour string
defaultOutboundForConnection adapter.Outbound
defaultOutboundForPacketConnection adapter.Outbound
needGeoIPDatabase bool
needGeositeDatabase bool
geoIPOptions option.GeoIPOptions
geositeOptions option.GeositeOptions
geoIPReader *geoip.Reader
geositeReader *geosite.Reader
geositeCache map[string]adapter.Rule
needFindProcess bool
dnsClient *dns.Client
defaultDomainStrategy dns.DomainStrategy
dnsRules []adapter.DNSRule
ruleSets []adapter.RuleSet
ruleSetMap map[string]adapter.RuleSet
defaultTransport dns.Transport
transports []dns.Transport
transportMap map[string]dns.Transport
transportDomainStrategy map[dns.Transport]dns.DomainStrategy
dnsReverseMapping *DNSReverseMapping
fakeIPStore adapter.FakeIPStore
interfaceFinder myInterfaceFinder
autoDetectInterface bool
defaultInterface string
defaultMark int
networkMonitor tun.NetworkUpdateMonitor
interfaceMonitor tun.DefaultInterfaceMonitor
packageManager tun.PackageManager
processSearcher process.Searcher
timeService *ntp.Service
pauseManager pause.Manager
clashServer adapter.ClashServer
v2rayServer adapter.V2RayServer
platformInterface platform.Interface
needWIFIState bool
wifiState adapter.WIFIState
started bool
}
func NewRouter(
ctx context.Context,
logFactory log.Factory,
options option.RouteOptions,
dnsOptions option.DNSOptions,
ntpOptions option.NTPOptions,
inbounds []option.Inbound,
platformInterface platform.Interface,
) (*Router, error) {
router := &Router{
ctx: ctx,
logger: logFactory.NewLogger("router"),
dnsLogger: logFactory.NewLogger("dns"),
outboundByTag: make(map[string]adapter.Outbound),
rules: make([]adapter.Rule, 0, len(options.Rules)),
dnsRules: make([]adapter.DNSRule, 0, len(dnsOptions.Rules)),
ruleSetMap: make(map[string]adapter.RuleSet),
needGeoIPDatabase: hasRule(options.Rules, isGeoIPRule) || hasDNSRule(dnsOptions.Rules, isGeoIPDNSRule),
needGeositeDatabase: hasRule(options.Rules, isGeositeRule) || hasDNSRule(dnsOptions.Rules, isGeositeDNSRule),
geoIPOptions: common.PtrValueOrDefault(options.GeoIP),
geositeOptions: common.PtrValueOrDefault(options.Geosite),
geositeCache: make(map[string]adapter.Rule),
needFindProcess: hasRule(options.Rules, isProcessRule) || hasDNSRule(dnsOptions.Rules, isProcessDNSRule) || options.FindProcess,
defaultDetour: options.Final,
defaultDomainStrategy: dns.DomainStrategy(dnsOptions.Strategy),
autoDetectInterface: options.AutoDetectInterface,
defaultInterface: options.DefaultInterface,
defaultMark: options.DefaultMark,
pauseManager: pause.ManagerFromContext(ctx),
platformInterface: platformInterface,
needWIFIState: hasRule(options.Rules, isWIFIRule) || hasDNSRule(dnsOptions.Rules, isWIFIDNSRule),
}
router.dnsClient = dns.NewClient(dns.ClientOptions{
DisableCache: dnsOptions.DNSClientOptions.DisableCache,
DisableExpire: dnsOptions.DNSClientOptions.DisableExpire,
IndependentCache: dnsOptions.DNSClientOptions.IndependentCache,
Logger: router.dnsLogger,
})
for i, ruleOptions := range options.Rules {
routeRule, err := NewRule(router, router.logger, ruleOptions, true)
if err != nil {
return nil, E.Cause(err, "parse rule[", i, "]")
}
router.rules = append(router.rules, routeRule)
}
for i, dnsRuleOptions := range dnsOptions.Rules {
dnsRule, err := NewDNSRule(router, router.logger, dnsRuleOptions, true)
if err != nil {
return nil, E.Cause(err, "parse dns rule[", i, "]")
}
router.dnsRules = append(router.dnsRules, dnsRule)
}
for i, ruleSetOptions := range options.RuleSet {
if _, exists := router.ruleSetMap[ruleSetOptions.Tag]; exists {
return nil, E.New("duplicate rule-set tag: ", ruleSetOptions.Tag)
}
ruleSet, err := NewRuleSet(ctx, router, router.logger, ruleSetOptions)
if err != nil {
return nil, E.Cause(err, "parse rule-set[", i, "]")
}
router.ruleSets = append(router.ruleSets, ruleSet)
router.ruleSetMap[ruleSetOptions.Tag] = ruleSet
}
transports := make([]dns.Transport, len(dnsOptions.Servers))
dummyTransportMap := make(map[string]dns.Transport)
transportMap := make(map[string]dns.Transport)
transportTags := make([]string, len(dnsOptions.Servers))
transportTagMap := make(map[string]bool)
transportDomainStrategy := make(map[dns.Transport]dns.DomainStrategy)
for i, server := range dnsOptions.Servers {
var tag string
if server.Tag != "" {
tag = server.Tag
} else {
tag = F.ToString(i)
}
if transportTagMap[tag] {
return nil, E.New("duplicate dns server tag: ", tag)
}
transportTags[i] = tag
transportTagMap[tag] = true
}
ctx = adapter.ContextWithRouter(ctx, router)
for {
lastLen := len(dummyTransportMap)
for i, server := range dnsOptions.Servers {
tag := transportTags[i]
if _, exists := dummyTransportMap[tag]; exists {
continue
}
var detour N.Dialer
if server.Detour == "" {
detour = dialer.NewRouter(router)
} else {
detour = dialer.NewDetour(router, server.Detour)
}
switch server.Address {
case "local":
default:
serverURL, _ := url.Parse(server.Address)
var serverAddress string
if serverURL != nil {
serverAddress = serverURL.Hostname()
}
if serverAddress == "" {
serverAddress = server.Address
}
_, notIpAddress := netip.ParseAddr(serverAddress)
if server.AddressResolver != "" {
if !transportTagMap[server.AddressResolver] {
return nil, E.New("parse dns server[", tag, "]: address resolver not found: ", server.AddressResolver)
}
if upstream, exists := dummyTransportMap[server.AddressResolver]; exists {
detour = dns.NewDialerWrapper(detour, router.dnsClient, upstream, dns.DomainStrategy(server.AddressStrategy), time.Duration(server.AddressFallbackDelay))
} else {
continue
}
} else if notIpAddress != nil && strings.Contains(server.Address, ".") {
return nil, E.New("parse dns server[", tag, "]: missing address_resolver")
}
}
transport, err := dns.CreateTransport(tag, ctx, logFactory.NewLogger(F.ToString("dns/transport[", tag, "]")), detour, server.Address)
if err != nil {
return nil, E.Cause(err, "parse dns server[", tag, "]")
}
transports[i] = transport
dummyTransportMap[tag] = transport
if server.Tag != "" {
transportMap[server.Tag] = transport
}
strategy := dns.DomainStrategy(server.Strategy)
if strategy != dns.DomainStrategyAsIS {
transportDomainStrategy[transport] = strategy
}
}
if len(transports) == len(dummyTransportMap) {
break
}
if lastLen != len(dummyTransportMap) {
continue
}
unresolvedTags := common.MapIndexed(common.FilterIndexed(dnsOptions.Servers, func(index int, server option.DNSServerOptions) bool {
_, exists := dummyTransportMap[transportTags[index]]
return !exists
}), func(index int, server option.DNSServerOptions) string {
return transportTags[index]
})
if len(unresolvedTags) == 0 {
panic(F.ToString("unexpected unresolved dns servers: ", len(transports), " ", len(dummyTransportMap), " ", len(transportMap)))
}
return nil, E.New("found circular reference in dns servers: ", strings.Join(unresolvedTags, " "))
}
var defaultTransport dns.Transport
if dnsOptions.Final != "" {
defaultTransport = dummyTransportMap[dnsOptions.Final]
if defaultTransport == nil {
return nil, E.New("default dns server not found: ", dnsOptions.Final)
}
}
if defaultTransport == nil {
if len(transports) == 0 {
transports = append(transports, dns.NewLocalTransport("local", N.SystemDialer))
}
defaultTransport = transports[0]
}
router.defaultTransport = defaultTransport
router.transports = transports
router.transportMap = transportMap
router.transportDomainStrategy = transportDomainStrategy
if dnsOptions.ReverseMapping {
router.dnsReverseMapping = NewDNSReverseMapping()
}
if fakeIPOptions := dnsOptions.FakeIP; fakeIPOptions != nil && dnsOptions.FakeIP.Enabled {
var inet4Range netip.Prefix
var inet6Range netip.Prefix
if fakeIPOptions.Inet4Range != nil {
inet4Range = *fakeIPOptions.Inet4Range
}
if fakeIPOptions.Inet6Range != nil {
inet6Range = *fakeIPOptions.Inet6Range
}
router.fakeIPStore = fakeip.NewStore(ctx, router.logger, inet4Range, inet6Range)
}
usePlatformDefaultInterfaceMonitor := platformInterface != nil && platformInterface.UsePlatformDefaultInterfaceMonitor()
needInterfaceMonitor := options.AutoDetectInterface || common.Any(inbounds, func(inbound option.Inbound) bool {
return inbound.HTTPOptions.SetSystemProxy || inbound.MixedOptions.SetSystemProxy || inbound.TunOptions.AutoRoute
})
if !usePlatformDefaultInterfaceMonitor {
networkMonitor, err := tun.NewNetworkUpdateMonitor(router.logger)
if !((err != nil && !needInterfaceMonitor) || errors.Is(err, os.ErrInvalid)) {
if err != nil {
return nil, err
}
router.networkMonitor = networkMonitor
networkMonitor.RegisterCallback(func() {
_ = router.interfaceFinder.update()
})
interfaceMonitor, err := tun.NewDefaultInterfaceMonitor(router.networkMonitor, router.logger, tun.DefaultInterfaceMonitorOptions{
OverrideAndroidVPN: options.OverrideAndroidVPN,
UnderNetworkExtension: platformInterface != nil && platformInterface.UnderNetworkExtension(),
})
if err != nil {
return nil, E.New("auto_detect_interface unsupported on current platform")
}
interfaceMonitor.RegisterCallback(router.notifyNetworkUpdate)
router.interfaceMonitor = interfaceMonitor
}
} else {
interfaceMonitor := platformInterface.CreateDefaultInterfaceMonitor(router.logger)
interfaceMonitor.RegisterCallback(router.notifyNetworkUpdate)
router.interfaceMonitor = interfaceMonitor
}
if ntpOptions.Enabled {
timeService, err := ntp.NewService(ctx, router, logFactory.NewLogger("ntp"), ntpOptions)
if err != nil {
return nil, err
}
service.ContextWith[serviceNTP.TimeService](ctx, timeService)
router.timeService = timeService
}
return router, nil
}
func (r *Router) Initialize(inbounds []adapter.Inbound, outbounds []adapter.Outbound, defaultOutbound func() adapter.Outbound) error {
inboundByTag := make(map[string]adapter.Inbound)
for _, inbound := range inbounds {
inboundByTag[inbound.Tag()] = inbound
}
outboundByTag := make(map[string]adapter.Outbound)
for _, detour := range outbounds {
outboundByTag[detour.Tag()] = detour
}
var defaultOutboundForConnection adapter.Outbound
var defaultOutboundForPacketConnection adapter.Outbound
if r.defaultDetour != "" {
detour, loaded := outboundByTag[r.defaultDetour]
if !loaded {
return E.New("default detour not found: ", r.defaultDetour)
}
if common.Contains(detour.Network(), N.NetworkTCP) {
defaultOutboundForConnection = detour
}
if common.Contains(detour.Network(), N.NetworkUDP) {
defaultOutboundForPacketConnection = detour
}
}
var index, packetIndex int
if defaultOutboundForConnection == nil {
for i, detour := range outbounds {
if common.Contains(detour.Network(), N.NetworkTCP) {
index = i
defaultOutboundForConnection = detour
break
}
}
}
if defaultOutboundForPacketConnection == nil {
for i, detour := range outbounds {
if common.Contains(detour.Network(), N.NetworkUDP) {
packetIndex = i
defaultOutboundForPacketConnection = detour
break
}
}
}
if defaultOutboundForConnection == nil || defaultOutboundForPacketConnection == nil {
detour := defaultOutbound()
if defaultOutboundForConnection == nil {
defaultOutboundForConnection = detour
}
if defaultOutboundForPacketConnection == nil {
defaultOutboundForPacketConnection = detour
}
outbounds = append(outbounds, detour)
outboundByTag[detour.Tag()] = detour
}
if defaultOutboundForConnection != defaultOutboundForPacketConnection {
var description string
if defaultOutboundForConnection.Tag() != "" {
description = defaultOutboundForConnection.Tag()
} else {
description = F.ToString(index)
}
var packetDescription string
if defaultOutboundForPacketConnection.Tag() != "" {
packetDescription = defaultOutboundForPacketConnection.Tag()
} else {
packetDescription = F.ToString(packetIndex)
}
r.logger.Info("using ", defaultOutboundForConnection.Type(), "[", description, "] as default outbound for connection")
r.logger.Info("using ", defaultOutboundForPacketConnection.Type(), "[", packetDescription, "] as default outbound for packet connection")
}
r.inboundByTag = inboundByTag
r.outbounds = outbounds
r.defaultOutboundForConnection = defaultOutboundForConnection
r.defaultOutboundForPacketConnection = defaultOutboundForPacketConnection
r.outboundByTag = outboundByTag
for i, rule := range r.rules {
if _, loaded := outboundByTag[rule.Outbound()]; !loaded {
return E.New("outbound not found for rule[", i, "]: ", rule.Outbound())
}
}
return nil
}
func (r *Router) Outbounds() []adapter.Outbound {
return r.outbounds
}
func (r *Router) Start() error {
if r.needGeoIPDatabase {
err := r.prepareGeoIPDatabase()
if err != nil {
return err
}
}
if r.needGeositeDatabase {
err := r.prepareGeositeDatabase()
if err != nil {
return err
}
}
if r.interfaceMonitor != nil {
err := r.interfaceMonitor.Start()
if err != nil {
return err
}
}
if r.networkMonitor != nil {
err := r.networkMonitor.Start()
if err != nil {
return err
}
}
if r.needGeositeDatabase {
for _, rule := range r.rules {
err := rule.UpdateGeosite()
if err != nil {
r.logger.Error("failed to initialize geosite: ", err)
}
}
for _, rule := range r.dnsRules {
err := rule.UpdateGeosite()
if err != nil {
r.logger.Error("failed to initialize geosite: ", err)
}
}
err := common.Close(r.geositeReader)
if err != nil {
return err
}
r.geositeCache = nil
r.geositeReader = nil
}
if r.fakeIPStore != nil {
err := r.fakeIPStore.Start()
if err != nil {
return err
}
}
if len(r.ruleSets) > 0 {
ruleSetStartContext := NewRuleSetStartContext()
var ruleSetStartGroup task.Group
for i, ruleSet := range r.ruleSets {
ruleSetInPlace := ruleSet
ruleSetStartGroup.Append0(func(ctx context.Context) error {
err := ruleSetInPlace.StartContext(ctx, ruleSetStartContext)
if err != nil {
return E.Cause(err, "initialize rule-set[", i, "]")
}
return nil
})
}
ruleSetStartGroup.Concurrency(5)
ruleSetStartGroup.FastFail()
err := ruleSetStartGroup.Run(r.ctx)
if err != nil {
return err
}
ruleSetStartContext.Close()
}
var (
needProcessFromRuleSet bool
needWIFIStateFromRuleSet bool
)
for _, ruleSet := range r.ruleSets {
metadata := ruleSet.Metadata()
if metadata.ContainsProcessRule {
needProcessFromRuleSet = true
}
if metadata.ContainsWIFIRule {
needWIFIStateFromRuleSet = true
}
}
if needProcessFromRuleSet || r.needFindProcess {
needPackageManager := C.IsAndroid && r.platformInterface == nil
if needPackageManager {
packageManager, err := tun.NewPackageManager(r)
if err != nil {
return E.Cause(err, "create package manager")
}
if packageManager != nil {
err = packageManager.Start()
if err != nil {
return err
}
}
r.packageManager = packageManager
}
if r.platformInterface != nil {
r.processSearcher = r.platformInterface
} else {
searcher, err := process.NewSearcher(process.Config{
Logger: r.logger,
PackageManager: r.packageManager,
})
if err != nil {
if err != os.ErrInvalid {
r.logger.Warn(E.Cause(err, "create process searcher"))
}
} else {
r.processSearcher = searcher
}
}
}
if needWIFIStateFromRuleSet || r.needWIFIState {
if r.platformInterface != nil && r.interfaceMonitor != nil {
r.interfaceMonitor.RegisterCallback(func(_ int) {
r.updateWIFIState()
})
}
r.updateWIFIState()
}
for i, rule := range r.rules {
err := rule.Start()
if err != nil {
return E.Cause(err, "initialize rule[", i, "]")
}
}
for i, rule := range r.dnsRules {
err := rule.Start()
if err != nil {
return E.Cause(err, "initialize DNS rule[", i, "]")
}
}
for i, transport := range r.transports {
err := transport.Start()
if err != nil {
return E.Cause(err, "initialize DNS server[", i, "]")
}
}
if r.timeService != nil {
err := r.timeService.Start()
if err != nil {
return E.Cause(err, "initialize time service")
}
}
return nil
}
func (r *Router) Close() error {
var err error
for i, rule := range r.rules {
r.logger.Trace("closing rule[", i, "]")
err = E.Append(err, rule.Close(), func(err error) error {
return E.Cause(err, "close rule[", i, "]")
})
}
for i, rule := range r.dnsRules {
r.logger.Trace("closing dns rule[", i, "]")
err = E.Append(err, rule.Close(), func(err error) error {
return E.Cause(err, "close dns rule[", i, "]")
})
}
for i, transport := range r.transports {
r.logger.Trace("closing transport[", i, "] ")
err = E.Append(err, transport.Close(), func(err error) error {
return E.Cause(err, "close dns transport[", i, "]")
})
}
if r.geoIPReader != nil {
r.logger.Trace("closing geoip reader")
err = E.Append(err, common.Close(r.geoIPReader), func(err error) error {
return E.Cause(err, "close geoip reader")
})
}
if r.interfaceMonitor != nil {
r.logger.Trace("closing interface monitor")
err = E.Append(err, r.interfaceMonitor.Close(), func(err error) error {
return E.Cause(err, "close interface monitor")
})
}
if r.networkMonitor != nil {
r.logger.Trace("closing network monitor")
err = E.Append(err, r.networkMonitor.Close(), func(err error) error {
return E.Cause(err, "close network monitor")
})
}
if r.packageManager != nil {
r.logger.Trace("closing package manager")
err = E.Append(err, r.packageManager.Close(), func(err error) error {
return E.Cause(err, "close package manager")
})
}
if r.timeService != nil {
r.logger.Trace("closing time service")
err = E.Append(err, r.timeService.Close(), func(err error) error {
return E.Cause(err, "close time service")
})
}
if r.fakeIPStore != nil {
r.logger.Trace("closing fakeip store")
err = E.Append(err, r.fakeIPStore.Close(), func(err error) error {
return E.Cause(err, "close fakeip store")
})
}
return err
}
func (r *Router) PostStart() error {
if len(r.ruleSets) > 0 {
for i, ruleSet := range r.ruleSets {
err := ruleSet.PostStart()
if err != nil {
return E.Cause(err, "post start rule-set[", i, "]")
}
}
}
r.started = true
return nil
}
func (r *Router) Outbound(tag string) (adapter.Outbound, bool) {
outbound, loaded := r.outboundByTag[tag]
return outbound, loaded
}
func (r *Router) DefaultOutbound(network string) (adapter.Outbound, error) {
if network == N.NetworkTCP {
if r.defaultOutboundForConnection == nil {
return nil, E.New("missing default outbound for TCP connections")
}
return r.defaultOutboundForConnection, nil
} else {
if r.defaultOutboundForPacketConnection == nil {
return nil, E.New("missing default outbound for UDP connections")
}
return r.defaultOutboundForPacketConnection, nil
}
}
func (r *Router) FakeIPStore() adapter.FakeIPStore {
return r.fakeIPStore
}
func (r *Router) RuleSet(tag string) (adapter.RuleSet, bool) {
ruleSet, loaded := r.ruleSetMap[tag]
return ruleSet, loaded
}
func (r *Router) RouteConnection(ctx context.Context, conn net.Conn, metadata adapter.InboundContext) error {
if metadata.InboundDetour != "" {
if metadata.LastInbound == metadata.InboundDetour {
return E.New("routing loop on detour: ", metadata.InboundDetour)
}
detour := r.inboundByTag[metadata.InboundDetour]
if detour == nil {
return E.New("inbound detour not found: ", metadata.InboundDetour)
}
injectable, isInjectable := detour.(adapter.InjectableInbound)
if !isInjectable {
return E.New("inbound detour is not injectable: ", metadata.InboundDetour)
}
if !common.Contains(injectable.Network(), N.NetworkTCP) {
return E.New("inject: TCP unsupported")
}
metadata.LastInbound = metadata.Inbound
metadata.Inbound = metadata.InboundDetour
metadata.InboundDetour = ""
err := injectable.NewConnection(ctx, conn, metadata)
if err != nil {
return E.Cause(err, "inject ", detour.Tag())
}
return nil
}
conntrack.KillerCheck()
metadata.Network = N.NetworkTCP
switch metadata.Destination.Fqdn {
case mux.Destination.Fqdn:
return E.New("global multiplex is deprecated since sing-box v1.7.0, enable multiplex in inbound options instead.")
case vmess.MuxDestination.Fqdn:
return E.New("global multiplex (v2ray legacy) not supported since sing-box v1.7.0.")
case uot.MagicAddress:
return E.New("global UoT not supported since sing-box v1.7.0.")
case uot.LegacyMagicAddress:
return E.New("global UoT (legacy) not supported since sing-box v1.7.0.")
}
if r.fakeIPStore != nil && r.fakeIPStore.Contains(metadata.Destination.Addr) {
domain, loaded := r.fakeIPStore.Lookup(metadata.Destination.Addr)
if !loaded {
return E.New("missing fakeip context")
}
metadata.OriginDestination = metadata.Destination
metadata.Destination = M.Socksaddr{
Fqdn: domain,
Port: metadata.Destination.Port,
}
metadata.FakeIP = true
r.logger.DebugContext(ctx, "found fakeip domain: ", domain)
}
if deadline.NeedAdditionalReadDeadline(conn) {
conn = deadline.NewConn(conn)
}
if metadata.InboundOptions.SniffEnabled {
buffer := buf.NewPacket()
sniffMetadata, err := sniff.PeekStream(ctx, conn, buffer, time.Duration(metadata.InboundOptions.SniffTimeout), sniff.StreamDomainNameQuery, sniff.TLSClientHello, sniff.HTTPHost)
if sniffMetadata != nil {
metadata.Protocol = sniffMetadata.Protocol
metadata.Domain = sniffMetadata.Domain
if metadata.InboundOptions.SniffOverrideDestination && M.IsDomainName(metadata.Domain) {
metadata.Destination = M.Socksaddr{
Fqdn: metadata.Domain,
Port: metadata.Destination.Port,
}
}
if metadata.Domain != "" {
r.logger.DebugContext(ctx, "sniffed protocol: ", metadata.Protocol, ", domain: ", metadata.Domain)
} else {
r.logger.DebugContext(ctx, "sniffed protocol: ", metadata.Protocol)
}
} else if err != nil {
r.logger.TraceContext(ctx, "sniffed no protocol: ", err)
}
if !buffer.IsEmpty() {
conn = bufio.NewCachedConn(conn, buffer)
} else {
buffer.Release()
}
}
if r.dnsReverseMapping != nil && metadata.Domain == "" {
domain, loaded := r.dnsReverseMapping.Query(metadata.Destination.Addr)
if loaded {
metadata.Domain = domain
r.logger.DebugContext(ctx, "found reserve mapped domain: ", metadata.Domain)
}
}
if metadata.Destination.IsFqdn() && dns.DomainStrategy(metadata.InboundOptions.DomainStrategy) != dns.DomainStrategyAsIS {
addresses, err := r.Lookup(adapter.WithContext(ctx, &metadata), metadata.Destination.Fqdn, dns.DomainStrategy(metadata.InboundOptions.DomainStrategy))
if err != nil {
return err
}
metadata.DestinationAddresses = addresses
r.dnsLogger.DebugContext(ctx, "resolved [", strings.Join(F.MapToString(metadata.DestinationAddresses), " "), "]")
}
if metadata.Destination.IsIPv4() {
metadata.IPVersion = 4
} else if metadata.Destination.IsIPv6() {
metadata.IPVersion = 6
}
ctx, matchedRule, detour, err := r.match(ctx, &metadata, r.defaultOutboundForConnection)
if err != nil {
return err
}
if !common.Contains(detour.Network(), N.NetworkTCP) {
return E.New("missing supported outbound, closing connection")
}
if r.clashServer != nil {
trackerConn, tracker := r.clashServer.RoutedConnection(ctx, conn, metadata, matchedRule)
defer tracker.Leave()
conn = trackerConn
}
if r.v2rayServer != nil {
if statsService := r.v2rayServer.StatsService(); statsService != nil {
conn = statsService.RoutedConnection(metadata.Inbound, detour.Tag(), metadata.User, conn)
}
}
return detour.NewConnection(ctx, conn, metadata)
}
func (r *Router) RoutePacketConnection(ctx context.Context, conn N.PacketConn, metadata adapter.InboundContext) error {
if metadata.InboundDetour != "" {
if metadata.LastInbound == metadata.InboundDetour {
return E.New("routing loop on detour: ", metadata.InboundDetour)
}
detour := r.inboundByTag[metadata.InboundDetour]
if detour == nil {
return E.New("inbound detour not found: ", metadata.InboundDetour)
}
injectable, isInjectable := detour.(adapter.InjectableInbound)
if !isInjectable {
return E.New("inbound detour is not injectable: ", metadata.InboundDetour)
}
if !common.Contains(injectable.Network(), N.NetworkUDP) {
return E.New("inject: UDP unsupported")
}
metadata.LastInbound = metadata.Inbound
metadata.Inbound = metadata.InboundDetour
metadata.InboundDetour = ""
err := injectable.NewPacketConnection(ctx, conn, metadata)
if err != nil {
return E.Cause(err, "inject ", detour.Tag())
}
return nil
}
conntrack.KillerCheck()
metadata.Network = N.NetworkUDP
if r.fakeIPStore != nil && r.fakeIPStore.Contains(metadata.Destination.Addr) {
domain, loaded := r.fakeIPStore.Lookup(metadata.Destination.Addr)
if !loaded {
return E.New("missing fakeip context")
}
metadata.OriginDestination = metadata.Destination
metadata.Destination = M.Socksaddr{
Fqdn: domain,
Port: metadata.Destination.Port,
}
metadata.FakeIP = true
r.logger.DebugContext(ctx, "found fakeip domain: ", domain)
}
// Currently we don't have deadline usages for UDP connections
/*if deadline.NeedAdditionalReadDeadline(conn) {
conn = deadline.NewPacketConn(bufio.NewNetPacketConn(conn))
}*/
if metadata.InboundOptions.SniffEnabled || metadata.Destination.Addr.IsUnspecified() {
buffer := buf.NewPacket()
destination, err := conn.ReadPacket(buffer)
if err != nil {
buffer.Release()
return err
}
if metadata.Destination.Addr.IsUnspecified() {
metadata.Destination = destination
}
if metadata.InboundOptions.SniffEnabled {
sniffMetadata, _ := sniff.PeekPacket(ctx, buffer.Bytes(), sniff.DomainNameQuery, sniff.QUICClientHello, sniff.STUNMessage)
if sniffMetadata != nil {
metadata.Protocol = sniffMetadata.Protocol
metadata.Domain = sniffMetadata.Domain
if metadata.InboundOptions.SniffOverrideDestination && M.IsDomainName(metadata.Domain) {
metadata.Destination = M.Socksaddr{
Fqdn: metadata.Domain,
Port: metadata.Destination.Port,
}
}
if metadata.Domain != "" {
r.logger.DebugContext(ctx, "sniffed packet protocol: ", metadata.Protocol, ", domain: ", metadata.Domain)
} else {
r.logger.DebugContext(ctx, "sniffed packet protocol: ", metadata.Protocol)
}
}
}
conn = bufio.NewCachedPacketConn(conn, buffer, destination)
}
if r.dnsReverseMapping != nil && metadata.Domain == "" {
domain, loaded := r.dnsReverseMapping.Query(metadata.Destination.Addr)
if loaded {
metadata.Domain = domain
r.logger.DebugContext(ctx, "found reserve mapped domain: ", metadata.Domain)
}
}
if metadata.Destination.IsFqdn() && dns.DomainStrategy(metadata.InboundOptions.DomainStrategy) != dns.DomainStrategyAsIS {
addresses, err := r.Lookup(adapter.WithContext(ctx, &metadata), metadata.Destination.Fqdn, dns.DomainStrategy(metadata.InboundOptions.DomainStrategy))
if err != nil {
return err
}
metadata.DestinationAddresses = addresses
r.dnsLogger.DebugContext(ctx, "resolved [", strings.Join(F.MapToString(metadata.DestinationAddresses), " "), "]")
}
if metadata.Destination.IsIPv4() {
metadata.IPVersion = 4
} else if metadata.Destination.IsIPv6() {
metadata.IPVersion = 6
}
ctx, matchedRule, detour, err := r.match(ctx, &metadata, r.defaultOutboundForPacketConnection)
if err != nil {
return err
}
if !common.Contains(detour.Network(), N.NetworkUDP) {
return E.New("missing supported outbound, closing packet connection")
}
if r.clashServer != nil {
trackerConn, tracker := r.clashServer.RoutedPacketConnection(ctx, conn, metadata, matchedRule)
defer tracker.Leave()
conn = trackerConn
}
if r.v2rayServer != nil {
if statsService := r.v2rayServer.StatsService(); statsService != nil {
conn = statsService.RoutedPacketConnection(metadata.Inbound, detour.Tag(), metadata.User, conn)
}
}
if metadata.FakeIP {
conn = bufio.NewNATPacketConn(bufio.NewNetPacketConn(conn), metadata.OriginDestination, metadata.Destination)
}
return detour.NewPacketConnection(ctx, conn, metadata)
}
func (r *Router) match(ctx context.Context, metadata *adapter.InboundContext, defaultOutbound adapter.Outbound) (context.Context, adapter.Rule, adapter.Outbound, error) {
matchRule, matchOutbound := r.match0(ctx, metadata, defaultOutbound)
if contextOutbound, loaded := outbound.TagFromContext(ctx); loaded {
if contextOutbound == matchOutbound.Tag() {
return nil, nil, nil, E.New("connection loopback in outbound/", matchOutbound.Type(), "[", matchOutbound.Tag(), "]")
}
}
ctx = outbound.ContextWithTag(ctx, matchOutbound.Tag())
return ctx, matchRule, matchOutbound, nil
}
func (r *Router) match0(ctx context.Context, metadata *adapter.InboundContext, defaultOutbound adapter.Outbound) (adapter.Rule, adapter.Outbound) {
if r.processSearcher != nil {
var originDestination netip.AddrPort
if metadata.OriginDestination.IsValid() {
originDestination = metadata.OriginDestination.AddrPort()
} else if metadata.Destination.IsIP() {
originDestination = metadata.Destination.AddrPort()
}
processInfo, err := process.FindProcessInfo(r.processSearcher, ctx, metadata.Network, metadata.Source.AddrPort(), originDestination)
if err != nil {
r.logger.InfoContext(ctx, "failed to search process: ", err)
} else {
if processInfo.ProcessPath != "" {
r.logger.InfoContext(ctx, "found process path: ", processInfo.ProcessPath)
} else if processInfo.PackageName != "" {
r.logger.InfoContext(ctx, "found package name: ", processInfo.PackageName)
} else if processInfo.UserId != -1 {
if /*needUserName &&*/ true {
osUser, _ := user.LookupId(F.ToString(processInfo.UserId))
if osUser != nil {
processInfo.User = osUser.Username
}
}
if processInfo.User != "" {
r.logger.InfoContext(ctx, "found user: ", processInfo.User)
} else {
r.logger.InfoContext(ctx, "found user id: ", processInfo.UserId)
}
}
metadata.ProcessInfo = processInfo
}
}
for i, rule := range r.rules {
metadata.ResetRuleCache()
if rule.Match(metadata) {
detour := rule.Outbound()
r.logger.DebugContext(ctx, "match[", i, "] ", rule.String(), " => ", detour)
if outbound, loaded := r.Outbound(detour); loaded {
return rule, outbound
}
r.logger.ErrorContext(ctx, "outbound not found: ", detour)
}
}
return nil, defaultOutbound
}
func (r *Router) InterfaceFinder() control.InterfaceFinder {
return &r.interfaceFinder
}
func (r *Router) UpdateInterfaces() error {
if r.platformInterface == nil || !r.platformInterface.UsePlatformInterfaceGetter() {
return r.interfaceFinder.update()
} else {
interfaces, err := r.platformInterface.Interfaces()
if err != nil {
return err
}
r.interfaceFinder.updateInterfaces(common.Map(interfaces, func(it platform.NetworkInterface) net.Interface {
return net.Interface{
Name: it.Name,
Index: it.Index,
MTU: it.MTU,
}
}))
return nil
}
}
func (r *Router) AutoDetectInterface() bool {
return r.autoDetectInterface
}
func (r *Router) AutoDetectInterfaceFunc() control.Func {
if r.platformInterface != nil && r.platformInterface.UsePlatformAutoDetectInterfaceControl() {
return r.platformInterface.AutoDetectInterfaceControl()
} else {
return control.BindToInterfaceFunc(r.InterfaceFinder(), func(network string, address string) (interfaceName string, interfaceIndex int, err error) {
remoteAddr := M.ParseSocksaddr(address).Addr
if C.IsLinux {
interfaceName, interfaceIndex = r.InterfaceMonitor().DefaultInterface(remoteAddr)
if interfaceIndex == -1 {
err = tun.ErrNoRoute
}
} else {
interfaceIndex = r.InterfaceMonitor().DefaultInterfaceIndex(remoteAddr)
if interfaceIndex == -1 {
err = tun.ErrNoRoute
}
}
return
})
}
}
func (r *Router) DefaultInterface() string {
return r.defaultInterface
}
func (r *Router) DefaultMark() int {
return r.defaultMark
}
func (r *Router) Rules() []adapter.Rule {
return r.rules
}
func (r *Router) WIFIState() adapter.WIFIState {
return r.wifiState
}
func (r *Router) NetworkMonitor() tun.NetworkUpdateMonitor {
return r.networkMonitor
}
func (r *Router) InterfaceMonitor() tun.DefaultInterfaceMonitor {
return r.interfaceMonitor
}
func (r *Router) PackageManager() tun.PackageManager {
return r.packageManager
}
func (r *Router) ClashServer() adapter.ClashServer {
return r.clashServer
}
func (r *Router) SetClashServer(server adapter.ClashServer) {
r.clashServer = server
}
func (r *Router) V2RayServer() adapter.V2RayServer {
return r.v2rayServer
}
func (r *Router) SetV2RayServer(server adapter.V2RayServer) {
r.v2rayServer = server
}
func (r *Router) OnPackagesUpdated(packages int, sharedUsers int) {
r.logger.Info("updated packages list: ", packages, " packages, ", sharedUsers, " shared users")
}
func (r *Router) NewError(ctx context.Context, err error) {
common.Close(err)
if E.IsClosedOrCanceled(err) {
r.logger.DebugContext(ctx, "connection closed: ", err)
return
}
r.logger.ErrorContext(ctx, err)
}
func (r *Router) notifyNetworkUpdate(event int) {
if event == tun.EventNoRoute {
r.pauseManager.NetworkPause()
r.logger.Error("missing default interface")
} else {
r.pauseManager.NetworkWake()
if C.IsAndroid && r.platformInterface == nil {
var vpnStatus string
if r.interfaceMonitor.AndroidVPNEnabled() {
vpnStatus = "enabled"
} else {
vpnStatus = "disabled"
}
r.logger.Info("updated default interface ", r.interfaceMonitor.DefaultInterfaceName(netip.IPv4Unspecified()), ", index ", r.interfaceMonitor.DefaultInterfaceIndex(netip.IPv4Unspecified()), ", vpn ", vpnStatus)
} else {
r.logger.Info("updated default interface ", r.interfaceMonitor.DefaultInterfaceName(netip.IPv4Unspecified()), ", index ", r.interfaceMonitor.DefaultInterfaceIndex(netip.IPv4Unspecified()))
}
}
if !r.started {
return
}
_ = r.ResetNetwork()
}
func (r *Router) ResetNetwork() error {
conntrack.Close()
for _, outbound := range r.outbounds {
listener, isListener := outbound.(adapter.InterfaceUpdateListener)
if isListener {
listener.InterfaceUpdated()
}
}
for _, transport := range r.transports {
transport.Reset()
}
return nil
}
func (r *Router) updateWIFIState() {
if r.platformInterface == nil {
return
}
state := r.platformInterface.ReadWIFIState()
if state != r.wifiState {
r.wifiState = state
r.logger.Info("updated WIFI state: SSID=", state.SSID, ", BSSID=", state.BSSID)
}
}