mihomo/component/sniffer/dispatcher.go
2024-05-19 19:35:12 +08:00

234 lines
6.1 KiB
Go

package sniffer
import (
"errors"
"fmt"
"net"
"net/netip"
"sync"
"time"
"github.com/metacubex/mihomo/common/lru"
N "github.com/metacubex/mihomo/common/net"
"github.com/metacubex/mihomo/component/trie"
C "github.com/metacubex/mihomo/constant"
"github.com/metacubex/mihomo/constant/sniffer"
"github.com/metacubex/mihomo/log"
)
var (
ErrorUnsupportedSniffer = errors.New("unsupported sniffer")
ErrorSniffFailed = errors.New("all sniffer failed")
ErrNoClue = errors.New("not enough information for making a decision")
)
var Dispatcher *SnifferDispatcher
type SnifferDispatcher struct {
enable bool
sniffers map[sniffer.Sniffer]SnifferConfig
forceDomain *trie.DomainSet
skipSNI *trie.DomainSet
skipList *lru.LruCache[string, uint8]
rwMux sync.RWMutex
forceDnsMapping bool
parsePureIp bool
}
func (sd *SnifferDispatcher) shouldOverride(metadata *C.Metadata) bool {
return (metadata.Host == "" && sd.parsePureIp) ||
sd.forceDomain.Has(metadata.Host) ||
(metadata.DNSMode == C.DNSMapping && sd.forceDnsMapping)
}
func (sd *SnifferDispatcher) UDPSniff(packet C.PacketAdapter) bool {
metadata := packet.Metadata()
if sd.shouldOverride(packet.Metadata()) {
for sniffer, config := range sd.sniffers {
if sniffer.SupportNetwork() == C.UDP || sniffer.SupportNetwork() == C.ALLNet {
inWhitelist := sniffer.SupportPort(metadata.DstPort)
overrideDest := config.OverrideDest
if inWhitelist {
host, err := sniffer.SniffData(packet.Data())
if err != nil {
continue
}
sd.replaceDomain(metadata, host, overrideDest)
return true
}
}
}
}
return false
}
// TCPSniff returns true if the connection is sniffed to have a domain
func (sd *SnifferDispatcher) TCPSniff(conn *N.BufferedConn, metadata *C.Metadata) bool {
if sd.shouldOverride(metadata) {
inWhitelist := false
overrideDest := false
for sniffer, config := range sd.sniffers {
if sniffer.SupportNetwork() == C.TCP || sniffer.SupportNetwork() == C.ALLNet {
inWhitelist = sniffer.SupportPort(metadata.DstPort)
if inWhitelist {
overrideDest = config.OverrideDest
break
}
}
}
if !inWhitelist {
return false
}
sd.rwMux.RLock()
dst := fmt.Sprintf("%s:%d", metadata.DstIP, metadata.DstPort)
if count, ok := sd.skipList.Get(dst); ok && count > 5 {
log.Debugln("[Sniffer] Skip sniffing[%s] due to multiple failures", dst)
defer sd.rwMux.RUnlock()
return false
}
sd.rwMux.RUnlock()
if host, err := sd.sniffDomain(conn, metadata); err != nil {
sd.cacheSniffFailed(metadata)
log.Debugln("[Sniffer] All sniffing sniff failed with from [%s:%d] to [%s:%d]", metadata.SrcIP, metadata.SrcPort, metadata.String(), metadata.DstPort)
return false
} else {
if sd.skipSNI.Has(host) {
log.Debugln("[Sniffer] Skip sni[%s]", host)
return false
}
sd.rwMux.RLock()
sd.skipList.Delete(dst)
sd.rwMux.RUnlock()
sd.replaceDomain(metadata, host, overrideDest)
return true
}
}
return false
}
func (sd *SnifferDispatcher) replaceDomain(metadata *C.Metadata, host string, overrideDest bool) {
metadata.SniffHost = host
if overrideDest {
log.Debugln("[Sniffer] Sniff %s [%s]-->[%s] success, replace domain [%s]-->[%s]",
metadata.NetWork,
metadata.SourceDetail(),
metadata.RemoteAddress(),
metadata.Host, host)
metadata.Host = host
}
metadata.DNSMode = C.DNSNormal
}
func (sd *SnifferDispatcher) Enable() bool {
return sd.enable
}
func (sd *SnifferDispatcher) sniffDomain(conn *N.BufferedConn, metadata *C.Metadata) (string, error) {
for s := range sd.sniffers {
if s.SupportNetwork() == C.TCP {
_ = conn.SetReadDeadline(time.Now().Add(1 * time.Second))
_, err := conn.Peek(1)
_ = conn.SetReadDeadline(time.Time{})
if err != nil {
_, ok := err.(*net.OpError)
if ok {
sd.cacheSniffFailed(metadata)
log.Errorln("[Sniffer] [%s] may not have any sent data, Consider adding skip", metadata.DstIP.String())
_ = conn.Close()
}
return "", err
}
bufferedLen := conn.Buffered()
bytes, err := conn.Peek(bufferedLen)
if err != nil {
log.Debugln("[Sniffer] the data length not enough")
continue
}
host, err := s.SniffData(bytes)
if err != nil {
//log.Debugln("[Sniffer] [%s] Sniff data failed %s", s.Protocol(), metadata.DstIP)
continue
}
_, err = netip.ParseAddr(host)
if err == nil {
//log.Debugln("[Sniffer] [%s] Sniff data failed %s", s.Protocol(), metadata.DstIP)
continue
}
return host, nil
}
}
return "", ErrorSniffFailed
}
func (sd *SnifferDispatcher) cacheSniffFailed(metadata *C.Metadata) {
sd.rwMux.Lock()
dst := fmt.Sprintf("%s:%d", metadata.DstIP, metadata.DstPort)
count, _ := sd.skipList.Get(dst)
if count <= 5 {
count++
}
sd.skipList.Set(dst, count)
sd.rwMux.Unlock()
}
func NewCloseSnifferDispatcher() (*SnifferDispatcher, error) {
dispatcher := SnifferDispatcher{
enable: false,
}
return &dispatcher, nil
}
func NewSnifferDispatcher(snifferConfig map[sniffer.Type]SnifferConfig,
forceDomain *trie.DomainSet, skipSNI *trie.DomainSet,
forceDnsMapping bool, parsePureIp bool) (*SnifferDispatcher, error) {
dispatcher := SnifferDispatcher{
enable: true,
forceDomain: forceDomain,
skipSNI: skipSNI,
skipList: lru.New(lru.WithSize[string, uint8](128), lru.WithAge[string, uint8](600)),
forceDnsMapping: forceDnsMapping,
parsePureIp: parsePureIp,
sniffers: make(map[sniffer.Sniffer]SnifferConfig, 0),
}
for snifferName, config := range snifferConfig {
s, err := NewSniffer(snifferName, config)
if err != nil {
log.Errorln("Sniffer name[%s] is error", snifferName)
return &SnifferDispatcher{enable: false}, err
}
dispatcher.sniffers[s] = config
}
return &dispatcher, nil
}
func NewSniffer(name sniffer.Type, snifferConfig SnifferConfig) (sniffer.Sniffer, error) {
switch name {
case sniffer.TLS:
return NewTLSSniffer(snifferConfig)
case sniffer.HTTP:
return NewHTTPSniffer(snifferConfig)
case sniffer.QUIC:
return NewQuicSniffer(snifferConfig)
default:
return nil, ErrorUnsupportedSniffer
}
}