Clash.Meta/adapter/outboundgroup/loadbalance.go

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package outboundgroup
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import (
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"context"
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"encoding/json"
"errors"
"fmt"
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"net"
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"sync"
"time"
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"github.com/metacubex/mihomo/adapter/outbound"
"github.com/metacubex/mihomo/common/cache"
"github.com/metacubex/mihomo/common/callback"
N "github.com/metacubex/mihomo/common/net"
"github.com/metacubex/mihomo/common/utils"
"github.com/metacubex/mihomo/component/dialer"
C "github.com/metacubex/mihomo/constant"
"github.com/metacubex/mihomo/constant/provider"
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"golang.org/x/net/publicsuffix"
)
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type strategyFn = func(proxies []C.Proxy, metadata *C.Metadata, touch bool) C.Proxy
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type LoadBalance struct {
*GroupBase
disableUDP bool
strategyFn strategyFn
testUrl string
expectedStatus string
}
var errStrategy = errors.New("unsupported strategy")
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func parseStrategy(config map[string]any) string {
if strategy, ok := config["strategy"].(string); ok {
return strategy
}
return "consistent-hashing"
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}
func getKey(metadata *C.Metadata) string {
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if metadata == nil {
return ""
}
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if metadata.Host != "" {
// ip host
if ip := net.ParseIP(metadata.Host); ip != nil {
return metadata.Host
}
if etld, err := publicsuffix.EffectiveTLDPlusOne(metadata.Host); err == nil {
return etld
}
}
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if !metadata.DstIP.IsValid() {
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return ""
}
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return metadata.DstIP.String()
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}
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func getKeyWithSrcAndDst(metadata *C.Metadata) string {
dst := getKey(metadata)
src := ""
if metadata != nil {
src = metadata.SrcIP.String()
}
return fmt.Sprintf("%s%s", src, dst)
}
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func jumpHash(key uint64, buckets int32) int32 {
var b, j int64
for j < int64(buckets) {
b = j
key = key*2862933555777941757 + 1
j = int64(float64(b+1) * (float64(int64(1)<<31) / float64((key>>33)+1)))
}
return int32(b)
}
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// DialContext implements C.ProxyAdapter
func (lb *LoadBalance) DialContext(ctx context.Context, metadata *C.Metadata, opts ...dialer.Option) (c C.Conn, err error) {
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proxy := lb.Unwrap(metadata, true)
c, err = proxy.DialContext(ctx, metadata, lb.Base.DialOptions(opts...)...)
if err == nil {
c.AppendToChains(lb)
} else {
lb.onDialFailed(proxy.Type(), err)
}
if N.NeedHandshake(c) {
c = callback.NewFirstWriteCallBackConn(c, func(err error) {
if err == nil {
lb.onDialSuccess()
} else {
lb.onDialFailed(proxy.Type(), err)
}
})
}
return
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}
// ListenPacketContext implements C.ProxyAdapter
func (lb *LoadBalance) ListenPacketContext(ctx context.Context, metadata *C.Metadata, opts ...dialer.Option) (pc C.PacketConn, err error) {
defer func() {
if err == nil {
pc.AppendToChains(lb)
}
}()
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proxy := lb.Unwrap(metadata, true)
return proxy.ListenPacketContext(ctx, metadata, lb.Base.DialOptions(opts...)...)
}
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// SupportUDP implements C.ProxyAdapter
func (lb *LoadBalance) SupportUDP() bool {
return !lb.disableUDP
}
// IsL3Protocol implements C.ProxyAdapter
func (lb *LoadBalance) IsL3Protocol(metadata *C.Metadata) bool {
return lb.Unwrap(metadata, false).IsL3Protocol(metadata)
}
func strategyRoundRobin(url string) strategyFn {
idx := 0
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idxMutex := sync.Mutex{}
return func(proxies []C.Proxy, metadata *C.Metadata, touch bool) C.Proxy {
idxMutex.Lock()
defer idxMutex.Unlock()
i := 0
length := len(proxies)
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if touch {
defer func() {
idx = (idx + i) % length
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}()
}
for ; i < length; i++ {
id := (idx + i) % length
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proxy := proxies[id]
// if proxy.Alive() {
if proxy.AliveForTestUrl(url) {
i++
return proxy
}
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}
return proxies[0]
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}
}
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func strategyConsistentHashing(url string) strategyFn {
maxRetry := 5
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return func(proxies []C.Proxy, metadata *C.Metadata, touch bool) C.Proxy {
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key := utils.MapHash(getKey(metadata))
buckets := int32(len(proxies))
for i := 0; i < maxRetry; i, key = i+1, key+1 {
idx := jumpHash(key, buckets)
proxy := proxies[idx]
// if proxy.Alive() {
if proxy.AliveForTestUrl(url) {
return proxy
}
}
// when availability is poor, traverse the entire list to get the available nodes
for _, proxy := range proxies {
// if proxy.Alive() {
if proxy.AliveForTestUrl(url) {
return proxy
}
}
return proxies[0]
}
}
func strategyStickySessions(url string) strategyFn {
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ttl := time.Minute * 10
maxRetry := 5
lruCache := cache.New[uint64, int](
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cache.WithAge[uint64, int](int64(ttl.Seconds())),
cache.WithSize[uint64, int](1000))
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return func(proxies []C.Proxy, metadata *C.Metadata, touch bool) C.Proxy {
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key := utils.MapHash(getKeyWithSrcAndDst(metadata))
length := len(proxies)
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idx, has := lruCache.Get(key)
if !has {
idx = int(jumpHash(key+uint64(time.Now().UnixNano()), int32(length)))
}
nowIdx := idx
for i := 1; i < maxRetry; i++ {
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proxy := proxies[nowIdx]
// if proxy.Alive() {
if proxy.AliveForTestUrl(url) {
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if nowIdx != idx {
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lruCache.Delete(key)
lruCache.Set(key, nowIdx)
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}
return proxy
} else {
nowIdx = int(jumpHash(key+uint64(time.Now().UnixNano()), int32(length)))
}
}
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lruCache.Delete(key)
lruCache.Set(key, 0)
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return proxies[0]
}
}
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// Unwrap implements C.ProxyAdapter
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func (lb *LoadBalance) Unwrap(metadata *C.Metadata, touch bool) C.Proxy {
proxies := lb.GetProxies(touch)
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return lb.strategyFn(proxies, metadata, touch)
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}
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// MarshalJSON implements C.ProxyAdapter
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func (lb *LoadBalance) MarshalJSON() ([]byte, error) {
var all []string
for _, proxy := range lb.GetProxies(false) {
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all = append(all, proxy.Name())
}
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return json.Marshal(map[string]any{
"type": lb.Type().String(),
"all": all,
"testUrl": lb.testUrl,
"expectedStatus": lb.expectedStatus,
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})
}
func NewLoadBalance(option *GroupCommonOption, providers []provider.ProxyProvider, strategy string) (lb *LoadBalance, err error) {
var strategyFn strategyFn
switch strategy {
case "consistent-hashing":
strategyFn = strategyConsistentHashing(option.URL)
case "round-robin":
strategyFn = strategyRoundRobin(option.URL)
case "sticky-sessions":
strategyFn = strategyStickySessions(option.URL)
default:
return nil, fmt.Errorf("%w: %s", errStrategy, strategy)
}
return &LoadBalance{
GroupBase: NewGroupBase(GroupBaseOption{
outbound.BaseOption{
Name: option.Name,
Type: C.LoadBalance,
Interface: option.Interface,
RoutingMark: option.RoutingMark,
},
option.Filter,
option.ExcludeFilter,
option.ExcludeType,
providers,
}),
strategyFn: strategyFn,
disableUDP: option.DisableUDP,
testUrl: option.URL,
expectedStatus: option.ExpectedStatus,
}, nil
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}