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package tunnel
import (
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"context"
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"fmt"
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"net"
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"net/netip"
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"runtime"
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"sync"
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"time"
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"github.com/jpillora/backoff"
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N "github.com/Dreamacro/clash/common/net"
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"github.com/Dreamacro/clash/component/nat"
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P "github.com/Dreamacro/clash/component/process"
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"github.com/Dreamacro/clash/component/resolver"
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"github.com/Dreamacro/clash/component/sniffer"
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C "github.com/Dreamacro/clash/constant"
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"github.com/Dreamacro/clash/constant/provider"
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icontext "github.com/Dreamacro/clash/context"
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"github.com/Dreamacro/clash/log"
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"github.com/Dreamacro/clash/tunnel/statistic"
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)
var (
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status = newAtomicStatus ( Suspend )
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tcpQueue = make ( chan C . ConnContext , 200 )
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udpQueue = make ( chan C . PacketAdapter , 200 )
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natTable = nat . New ( )
rules [ ] C . Rule
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listeners = make ( map [ string ] C . InboundListener )
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subRules map [ string ] [ ] C . Rule
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proxies = make ( map [ string ] C . Proxy )
providers map [ string ] provider . ProxyProvider
ruleProviders map [ string ] provider . RuleProvider
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sniffingEnable = false
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configMux sync . RWMutex
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// Outbound Rule
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mode = Rule
// default timeout for UDP session
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udpTimeout = 60 * time . Second
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findProcessMode P . FindProcessMode
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fakeIPRange netip . Prefix
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procesCache string
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)
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type tunnel struct { }
var Tunnel C . Tunnel = tunnel { }
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func ( t tunnel ) HandleTCPConn ( conn net . Conn , metadata * C . Metadata ) {
connCtx := icontext . NewConnContext ( conn , metadata )
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handleTCPConn ( connCtx )
}
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func ( t tunnel ) HandleUDPPacket ( packet C . UDPPacket , metadata * C . Metadata ) {
packetAdapter := C . NewPacketAdapter ( packet , metadata )
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select {
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case udpQueue <- packetAdapter :
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default :
}
}
func ( t tunnel ) NatTable ( ) C . NatTable {
return natTable
}
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func OnSuspend ( ) {
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status . Store ( Suspend )
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}
func OnInnerLoading ( ) {
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status . Store ( Inner )
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}
func OnRunning ( ) {
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status . Store ( Running )
}
func Status ( ) TunnelStatus {
return status . Load ( )
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}
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func SetFakeIPRange ( p netip . Prefix ) {
fakeIPRange = p
}
func FakeIPRange ( ) netip . Prefix {
return fakeIPRange
}
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func SetSniffing ( b bool ) {
if sniffer . Dispatcher . Enable ( ) {
configMux . Lock ( )
sniffingEnable = b
configMux . Unlock ( )
}
}
func IsSniffing ( ) bool {
return sniffingEnable
}
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func init ( ) {
go process ( )
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}
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// TCPIn return fan-in queue
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// Deprecated: using Tunnel instead
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func TCPIn ( ) chan <- C . ConnContext {
return tcpQueue
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}
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// UDPIn return fan-in udp queue
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// Deprecated: using Tunnel instead
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func UDPIn ( ) chan <- C . PacketAdapter {
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return udpQueue
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}
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// NatTable return nat table
func NatTable ( ) C . NatTable {
return natTable
}
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// Rules return all rules
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func Rules ( ) [ ] C . Rule {
return rules
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}
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func Listeners ( ) map [ string ] C . InboundListener {
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return listeners
}
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// UpdateRules handle update rules
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func UpdateRules ( newRules [ ] C . Rule , newSubRule map [ string ] [ ] C . Rule , rp map [ string ] provider . RuleProvider ) {
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configMux . Lock ( )
rules = newRules
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ruleProviders = rp
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subRules = newSubRule
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configMux . Unlock ( )
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}
// Proxies return all proxies
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func Proxies ( ) map [ string ] C . Proxy {
return proxies
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}
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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
}
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// Providers return all compatible providers
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func Providers ( ) map [ string ] provider . ProxyProvider {
return providers
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}
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// RuleProviders return all loaded rule providers
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func RuleProviders ( ) map [ string ] provider . RuleProvider {
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return ruleProviders
}
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// UpdateProxies handle update proxies
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func UpdateProxies ( newProxies map [ string ] C . Proxy , newProviders map [ string ] provider . ProxyProvider ) {
configMux . Lock ( )
proxies = newProxies
providers = newProviders
configMux . Unlock ( )
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}
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func UpdateListeners ( newListeners map [ string ] C . InboundListener ) {
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configMux . Lock ( )
defer configMux . Unlock ( )
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listeners = newListeners
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}
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func UpdateSniffer ( dispatcher * sniffer . SnifferDispatcher ) {
configMux . Lock ( )
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sniffer . Dispatcher = dispatcher
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sniffingEnable = dispatcher . Enable ( )
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configMux . Unlock ( )
}
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// Mode return current mode
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func Mode ( ) TunnelMode {
return mode
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}
// SetMode change the mode of tunnel
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func SetMode ( m TunnelMode ) {
mode = m
}
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// SetFindProcessMode replace SetAlwaysFindProcess
// always find process info if legacyAlways = true or mode.Always() = true, may be increase many memory
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func SetFindProcessMode ( mode P . FindProcessMode ) {
findProcessMode = mode
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}
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func isHandle ( t C . Type ) bool {
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status := status . Load ( )
return status == Running || ( status == Inner && t == C . INNER )
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}
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// processUDP starts a loop to handle udp packet
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func processUDP ( ) {
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queue := udpQueue
for conn := range queue {
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handleUDPConn ( conn )
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}
}
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func process ( ) {
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numUDPWorkers := 4
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if num := runtime . GOMAXPROCS ( 0 ) ; num > numUDPWorkers {
numUDPWorkers = num
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}
for i := 0 ; i < numUDPWorkers ; i ++ {
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go processUDP ( )
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}
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queue := tcpQueue
for conn := range queue {
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go handleTCPConn ( conn )
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}
}
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func needLookupIP ( metadata * C . Metadata ) bool {
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return resolver . MappingEnabled ( ) && metadata . Host == "" && metadata . DstIP . IsValid ( )
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}
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func preHandleMetadata ( metadata * C . Metadata ) error {
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// handle IP string on host
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if ip , err := netip . ParseAddr ( metadata . Host ) ; err == nil {
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metadata . DstIP = ip
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metadata . Host = ""
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}
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// preprocess enhanced-mode metadata
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if needLookupIP ( metadata ) {
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host , exist := resolver . FindHostByIP ( metadata . DstIP )
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if exist {
metadata . Host = host
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metadata . DNSMode = C . DNSMapping
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if resolver . FakeIPEnabled ( ) {
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metadata . DstIP = netip . Addr { }
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metadata . DNSMode = C . DNSFakeIP
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} else if node , ok := resolver . DefaultHosts . Search ( host , false ) ; ok {
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// redir-host should lookup the hosts
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metadata . DstIP , _ = node . RandIP ( )
} else if node != nil && node . IsDomain {
metadata . Host = node . Domain
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}
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} else if resolver . IsFakeIP ( metadata . DstIP ) {
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return fmt . Errorf ( "fake DNS record %s missing" , metadata . DstIP )
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}
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} else if node , ok := resolver . DefaultHosts . Search ( metadata . Host , true ) ; ok {
// try use domain mapping
metadata . Host = node . Domain
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}
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return nil
}
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func resolveMetadata ( metadata * C . Metadata ) ( proxy C . Proxy , rule C . Rule , err error ) {
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if metadata . SpecialProxy != "" {
var exist bool
proxy , exist = proxies [ metadata . SpecialProxy ]
if ! exist {
err = fmt . Errorf ( "proxy %s not found" , metadata . SpecialProxy )
}
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return
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}
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switch mode {
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case Direct :
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proxy = proxies [ "DIRECT" ]
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case Global :
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proxy = proxies [ "GLOBAL" ]
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// Rule
default :
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proxy , rule , err = match ( metadata )
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}
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return
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}
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func handleUDPConn ( packet C . PacketAdapter ) {
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if ! isHandle ( packet . Metadata ( ) . Type ) {
packet . Drop ( )
return
}
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metadata := packet . Metadata ( )
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if ! metadata . Valid ( ) {
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packet . Drop ( )
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log . Warnln ( "[Metadata] not valid: %#v" , metadata )
return
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}
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// make a fAddr if request ip is fakeip
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var fAddr netip . Addr
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if resolver . IsExistFakeIP ( metadata . DstIP ) {
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fAddr = metadata . DstIP
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}
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if err := preHandleMetadata ( metadata ) ; err != nil {
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packet . Drop ( )
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log . Debugln ( "[Metadata PreHandle] error: %s" , err )
return
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}
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if sniffer . Dispatcher . Enable ( ) && sniffingEnable {
sniffer . Dispatcher . UDPSniff ( packet )
}
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// local resolve UDP dns
if ! metadata . Resolved ( ) {
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ip , err := resolver . ResolveIP ( context . Background ( ) , metadata . Host )
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if err != nil {
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packet . Drop ( )
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return
}
metadata . DstIP = ip
}
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key := packet . LocalAddr ( ) . String ( )
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handle := func ( ) bool {
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pc , proxy := natTable . Get ( key )
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if pc != nil {
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if proxy != nil {
proxy . UpdateWriteBack ( packet )
}
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_ = handleUDPToRemote ( packet , pc , metadata )
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return true
}
return false
}
if handle ( ) {
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packet . Drop ( )
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return
}
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cond , loaded := natTable . GetOrCreateLock ( key )
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go func ( ) {
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defer packet . Drop ( )
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if loaded {
cond . L . Lock ( )
cond . Wait ( )
handle ( )
cond . L . Unlock ( )
return
}
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defer func ( ) {
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natTable . DeleteLock ( key )
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cond . Broadcast ( )
} ( )
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pCtx := icontext . NewPacketConnContext ( metadata )
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proxy , rule , err := resolveMetadata ( metadata )
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if err != nil {
log . Warnln ( "[UDP] Parse metadata failed: %s" , err . Error ( ) )
return
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}
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ctx , cancel := context . WithTimeout ( context . Background ( ) , C . DefaultUDPTimeout )
defer cancel ( )
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rawPc , err := retry ( ctx , func ( ctx context . Context ) ( C . PacketConn , error ) {
return proxy . ListenPacketContext ( ctx , metadata . Pure ( ) )
} , func ( err error ) {
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if rule == nil {
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log . Warnln (
"[UDP] dial %s %s --> %s error: %s" ,
proxy . Name ( ) ,
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metadata . SourceDetail ( ) ,
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metadata . RemoteAddress ( ) ,
err . Error ( ) ,
)
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} else {
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log . Warnln ( "[UDP] dial %s (match %s/%s) %s --> %s error: %s" , proxy . Name ( ) , rule . RuleType ( ) . String ( ) , rule . Payload ( ) , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , err . Error ( ) )
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}
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} )
if err != nil {
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return
}
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pCtx . InjectPacketConn ( rawPc )
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pc := statistic . NewUDPTracker ( rawPc , statistic . DefaultManager , metadata , rule , 0 , 0 , true )
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switch true {
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case metadata . SpecialProxy != "" :
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log . Infoln ( "[UDP] %s --> %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , metadata . SpecialProxy )
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case rule != nil :
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if rule . Payload ( ) != "" {
log . Infoln ( "[UDP] %s --> %s match %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , fmt . Sprintf ( "%s(%s)" , rule . RuleType ( ) . String ( ) , rule . Payload ( ) ) , rawPc . Chains ( ) . String ( ) )
} else {
log . Infoln ( "[UDP] %s --> %s match %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , rule . Payload ( ) , rawPc . Chains ( ) . String ( ) )
}
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case mode == Global :
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log . Infoln ( "[UDP] %s --> %s using GLOBAL" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) )
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case mode == Direct :
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log . Infoln ( "[UDP] %s --> %s using DIRECT" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) )
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default :
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log . Infoln ( "[UDP] %s --> %s doesn't match any rule using DIRECT" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) )
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}
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oAddrPort := metadata . AddrPort ( )
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writeBackProxy := nat . NewWriteBackProxy ( packet )
natTable . Set ( key , pc , writeBackProxy )
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go handleUDPToLocal ( writeBackProxy , pc , key , oAddrPort , fAddr )
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handle ( )
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} ( )
}
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func handleTCPConn ( connCtx C . ConnContext ) {
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if ! isHandle ( connCtx . Metadata ( ) . Type ) {
_ = connCtx . Conn ( ) . Close ( )
return
}
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defer func ( conn net . Conn ) {
_ = conn . Close ( )
} ( connCtx . Conn ( ) )
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metadata := connCtx . Metadata ( )
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if ! metadata . Valid ( ) {
log . Warnln ( "[Metadata] not valid: %#v" , metadata )
return
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}
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preHandleFailed := false
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if err := preHandleMetadata ( metadata ) ; err != nil {
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log . Debugln ( "[Metadata PreHandle] error: %s" , err )
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preHandleFailed = true
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}
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conn := connCtx . Conn ( )
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conn . ResetPeeked ( ) // reset before sniffer
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if sniffer . Dispatcher . Enable ( ) && sniffingEnable {
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// 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
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}
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 { } )
} ( )
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}
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proxy , rule , err := resolveMetadata ( metadata )
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if err != nil {
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log . Warnln ( "[Metadata] parse failed: %s" , err . Error ( ) )
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return
}
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dialMetadata := metadata
if len ( metadata . Host ) > 0 {
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if node , ok := resolver . DefaultHosts . Search ( metadata . Host , false ) ; ok {
if dstIp , _ := node . RandIP ( ) ; ! FakeIPRange ( ) . Contains ( dstIp ) {
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dialMetadata . DstIP = dstIp
dialMetadata . DNSMode = C . DNSHosts
dialMetadata = dialMetadata . Pure ( )
}
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}
}
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var peekBytes [ ] byte
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var peekLen int
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ctx , cancel := context . WithTimeout ( context . Background ( ) , C . DefaultTCPTimeout )
defer cancel ( )
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remoteConn , err := retry ( ctx , func ( ctx context . Context ) ( remoteConn C . Conn , err error ) {
remoteConn , err = proxy . DialContext ( ctx , dialMetadata )
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if err != nil {
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return
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}
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if N . NeedHandshake ( remoteConn ) {
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defer func ( ) {
for _ , chain := range remoteConn . Chains ( ) {
if chain == "REJECT" {
err = nil
return
}
}
if err != nil {
remoteConn = nil
}
} ( )
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peekMutex . Lock ( )
defer peekMutex . Unlock ( )
peekBytes , _ = conn . Peek ( conn . Buffered ( ) )
_ , err = remoteConn . Write ( peekBytes )
if err != nil {
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return
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}
if peekLen = len ( peekBytes ) ; peekLen > 0 {
_ , _ = conn . Discard ( peekLen )
}
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}
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return
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} , func ( err error ) {
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if rule == nil {
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log . Warnln (
"[TCP] dial %s %s --> %s error: %s" ,
proxy . Name ( ) ,
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metadata . SourceDetail ( ) ,
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metadata . RemoteAddress ( ) ,
err . Error ( ) ,
)
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} else {
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log . Warnln ( "[TCP] dial %s (match %s/%s) %s --> %s error: %s" , proxy . Name ( ) , rule . RuleType ( ) . String ( ) , rule . Payload ( ) , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , err . Error ( ) )
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}
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} )
if err != nil {
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return
}
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remoteConn = statistic . NewTCPTracker ( remoteConn , statistic . DefaultManager , metadata , rule , 0 , int64 ( peekLen ) , true )
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defer func ( remoteConn C . Conn ) {
_ = remoteConn . Close ( )
} ( remoteConn )
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switch true {
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case metadata . SpecialProxy != "" :
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log . Infoln ( "[TCP] %s --> %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , metadata . SpecialProxy )
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case rule != nil :
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if rule . Payload ( ) != "" {
log . Infoln ( "[TCP] %s --> %s match %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , fmt . Sprintf ( "%s(%s)" , rule . RuleType ( ) . String ( ) , rule . Payload ( ) ) , remoteConn . Chains ( ) . String ( ) )
} else {
log . Infoln ( "[TCP] %s --> %s match %s using %s" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) , rule . RuleType ( ) . String ( ) , remoteConn . Chains ( ) . String ( ) )
}
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case mode == Global :
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log . Infoln ( "[TCP] %s --> %s using GLOBAL" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) )
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case mode == Direct :
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log . Infoln ( "[TCP] %s --> %s using DIRECT" , metadata . SourceDetail ( ) , metadata . RemoteAddress ( ) )
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default :
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log . Infoln (
"[TCP] %s --> %s doesn't match any rule using DIRECT" ,
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metadata . SourceDetail ( ) ,
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metadata . RemoteAddress ( ) ,
)
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}
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_ = conn . SetReadDeadline ( time . Now ( ) ) // stop unfinished peek
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peekMutex . Lock ( )
defer peekMutex . Unlock ( )
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_ = conn . SetReadDeadline ( time . Time { } ) // reset
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handleSocket ( connCtx , remoteConn )
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}
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func shouldResolveIP ( rule C . Rule , metadata * C . Metadata ) bool {
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return rule . ShouldResolveIP ( ) && metadata . Host != "" && ! metadata . DstIP . IsValid ( )
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}
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func match ( metadata * C . Metadata ) ( C . Proxy , C . Rule , error ) {
configMux . RLock ( )
defer configMux . RUnlock ( )
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var (
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resolved bool
processFound bool
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)
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if node , ok := resolver . DefaultHosts . Search ( metadata . Host , false ) ; ok {
metadata . DstIP , _ = node . RandIP ( )
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resolved = true
}
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for _ , rule := range getRules ( metadata ) {
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if ! resolved && shouldResolveIP ( rule , metadata ) {
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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
} ( )
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}
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if ! findProcessMode . Off ( ) && ! processFound && ( findProcessMode . Always ( ) || rule . ShouldFindProcess ( ) ) {
2023-10-22 22:42:10 +08:00
pkg , err := P . FindPackageName ( metadata )
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if err != nil {
log . Debugln ( "[Process] find process %s: %v" , metadata . String ( ) , err )
} else {
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metadata . Process = pkg
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processFound = true
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if procesCache != metadata . Process {
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log . Debugln ( "[Process] %s from process %s" , metadata . String ( ) , metadata . Process )
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}
procesCache = metadata . Process
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}
}
feat: support sub-rule, eg.
rules:
- SUB-RULE,(AND,((NETWORK,TCP),(DOMAIN-KEYWORD,google))),TEST2
- SUB-RULE,(GEOIP,!CN),TEST1
- MATCH,DIRECT
sub-rules:
TEST2:
- MATCH,Proxy
TEST1:
- RULE-SET,Local,DIRECT,no-resolve
- GEOSITE,CN,Domestic
- GEOIP,CN,Domestic
- MATCH,Proxy
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if matched , ada := rule . Match ( metadata ) ; matched {
adapter , ok := proxies [ ada ]
2019-04-23 23:29:36 +08:00
if ! ok {
continue
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}
2019-04-23 23:29:36 +08:00
2022-10-30 23:08:18 +08:00
// 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 {
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log . Debugln ( "%s match Pass rule" , adapter . Name ( ) )
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continue
}
2019-04-23 23:29:36 +08:00
if metadata . NetWork == C . UDP && ! adapter . SupportUDP ( ) {
2021-04-05 13:31:10 +08:00
log . Debugln ( "%s UDP is not supported" , adapter . Name ( ) )
2019-04-23 23:29:36 +08:00
continue
}
2021-11-17 16:03:47 +08:00
2019-08-09 01:28:37 +08:00
return adapter , rule , nil
2018-06-10 22:50:03 +08:00
}
}
2022-06-09 13:52:02 +08:00
return proxies [ "DIRECT" ] , nil , nil
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}
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2022-12-04 13:37:14 +08:00
func getRules ( metadata * C . Metadata ) [ ] C . Rule {
2022-12-04 22:08:20 +08:00
if sr , ok := subRules [ metadata . SpecialRules ] ; ok {
2022-12-05 19:48:54 +08:00
log . Debugln ( "[Rule] use %s rules" , metadata . SpecialRules )
2022-12-04 13:37:14 +08:00
return sr
} else {
2022-12-05 19:48:54 +08:00
log . Debugln ( "[Rule] use default rules" )
2022-12-04 13:37:14 +08:00
return rules
}
}
2022-11-24 12:32:35 +08:00
func retry [ T any ] ( ctx context . Context , ft func ( context . Context ) ( T , error ) , fe func ( err error ) ) ( t T , err error ) {
b := & backoff . Backoff {
Min : 10 * time . Millisecond ,
Max : 1 * time . Second ,
Factor : 2 ,
Jitter : true ,
}
for i := 0 ; i < 10 ; i ++ {
t , err = ft ( ctx )
if err != nil {
if fe != nil {
fe ( err )
}
select {
case <- time . After ( b . Duration ( ) ) :
continue
case <- ctx . Done ( ) :
return
}
} else {
break
}
}
return
}