Clash.Meta/adapter/outboundgroup/groupbase.go
2023-10-10 21:28:46 +08:00

295 lines
6.5 KiB
Go

package outboundgroup
import (
"context"
"fmt"
"strings"
"sync"
"time"
"github.com/Dreamacro/clash/adapter/outbound"
"github.com/Dreamacro/clash/common/atomic"
"github.com/Dreamacro/clash/common/utils"
C "github.com/Dreamacro/clash/constant"
"github.com/Dreamacro/clash/constant/provider"
types "github.com/Dreamacro/clash/constant/provider"
"github.com/Dreamacro/clash/log"
"github.com/Dreamacro/clash/tunnel"
"github.com/dlclark/regexp2"
)
type GroupBase struct {
*outbound.Base
filterRegs []*regexp2.Regexp
excludeFilterReg *regexp2.Regexp
excludeTypeArray []string
providers []provider.ProxyProvider
failedTestMux sync.Mutex
failedTimes int
failedTime time.Time
failedTesting atomic.Bool
proxies [][]C.Proxy
versions []atomic.Uint32
}
type GroupBaseOption struct {
outbound.BaseOption
filter string
excludeFilter string
excludeType string
providers []provider.ProxyProvider
}
func NewGroupBase(opt GroupBaseOption) *GroupBase {
var excludeFilterReg *regexp2.Regexp
if opt.excludeFilter != "" {
excludeFilterReg = regexp2.MustCompile(opt.excludeFilter, 0)
}
var excludeTypeArray []string
if opt.excludeType != "" {
excludeTypeArray = strings.Split(opt.excludeType, "|")
}
var filterRegs []*regexp2.Regexp
if opt.filter != "" {
for _, filter := range strings.Split(opt.filter, "`") {
filterReg := regexp2.MustCompile(filter, 0)
filterRegs = append(filterRegs, filterReg)
}
}
gb := &GroupBase{
Base: outbound.NewBase(opt.BaseOption),
filterRegs: filterRegs,
excludeFilterReg: excludeFilterReg,
excludeTypeArray: excludeTypeArray,
providers: opt.providers,
failedTesting: atomic.NewBool(false),
}
gb.proxies = make([][]C.Proxy, len(opt.providers))
gb.versions = make([]atomic.Uint32, len(opt.providers))
return gb
}
func (gb *GroupBase) Touch() {
for _, pd := range gb.providers {
pd.Touch()
}
}
func (gb *GroupBase) GetProxies(touch bool) []C.Proxy {
var proxies []C.Proxy
if len(gb.filterRegs) == 0 {
for _, pd := range gb.providers {
if touch {
pd.Touch()
}
proxies = append(proxies, pd.Proxies()...)
}
} else {
for i, pd := range gb.providers {
if touch {
pd.Touch()
}
if pd.VehicleType() == types.Compatible {
gb.versions[i].Store(pd.Version())
gb.proxies[i] = pd.Proxies()
continue
}
version := gb.versions[i].Load()
if version != pd.Version() && gb.versions[i].CompareAndSwap(version, pd.Version()) {
var (
proxies []C.Proxy
newProxies []C.Proxy
)
proxies = pd.Proxies()
proxiesSet := map[string]struct{}{}
for _, filterReg := range gb.filterRegs {
for _, p := range proxies {
name := p.Name()
if mat, _ := filterReg.FindStringMatch(name); mat != nil {
if _, ok := proxiesSet[name]; !ok {
proxiesSet[name] = struct{}{}
newProxies = append(newProxies, p)
}
}
}
}
gb.proxies[i] = newProxies
}
}
for _, p := range gb.proxies {
proxies = append(proxies, p...)
}
}
if len(gb.providers) > 1 && len(gb.filterRegs) > 1 {
var newProxies []C.Proxy
proxiesSet := map[string]struct{}{}
for _, filterReg := range gb.filterRegs {
for _, p := range proxies {
name := p.Name()
if mat, _ := filterReg.FindStringMatch(name); mat != nil {
if _, ok := proxiesSet[name]; !ok {
proxiesSet[name] = struct{}{}
newProxies = append(newProxies, p)
}
}
}
}
for _, p := range proxies { // add not matched proxies at the end
name := p.Name()
if _, ok := proxiesSet[name]; !ok {
proxiesSet[name] = struct{}{}
newProxies = append(newProxies, p)
}
}
proxies = newProxies
}
if gb.excludeTypeArray != nil {
var newProxies []C.Proxy
for _, p := range proxies {
mType := p.Type().String()
flag := false
for i := range gb.excludeTypeArray {
if strings.EqualFold(mType, gb.excludeTypeArray[i]) {
flag = true
break
}
}
if flag {
continue
}
newProxies = append(newProxies, p)
}
proxies = newProxies
}
if gb.excludeFilterReg != nil {
var newProxies []C.Proxy
for _, p := range proxies {
name := p.Name()
if mat, _ := gb.excludeFilterReg.FindStringMatch(name); mat != nil {
continue
}
newProxies = append(newProxies, p)
}
proxies = newProxies
}
if len(proxies) == 0 {
return append(proxies, tunnel.Proxies()["COMPATIBLE"])
}
return proxies
}
func (gb *GroupBase) URLTest(ctx context.Context, url string, expectedStatus utils.IntRanges[uint16]) (map[string]uint16, error) {
var wg sync.WaitGroup
var lock sync.Mutex
mp := map[string]uint16{}
proxies := gb.GetProxies(false)
for _, proxy := range proxies {
proxy := proxy
wg.Add(1)
go func() {
delay, err := proxy.URLTest(ctx, url, expectedStatus, C.DropHistory)
if err == nil {
lock.Lock()
mp[proxy.Name()] = delay
lock.Unlock()
}
wg.Done()
}()
}
wg.Wait()
if len(mp) == 0 {
return mp, fmt.Errorf("get delay: all proxies timeout")
} else {
return mp, nil
}
}
func (gb *GroupBase) onDialFailed(adapterType C.AdapterType, err error) {
if adapterType == C.Direct || adapterType == C.Compatible || adapterType == C.Reject || adapterType == C.Pass {
return
}
if strings.Contains(err.Error(), "connection refused") {
go gb.healthCheck()
return
}
go func() {
gb.failedTestMux.Lock()
defer gb.failedTestMux.Unlock()
gb.failedTimes++
if gb.failedTimes == 1 {
log.Debugln("ProxyGroup: %s first failed", gb.Name())
gb.failedTime = time.Now()
} else {
if time.Since(gb.failedTime) > gb.failedTimeoutInterval() {
gb.failedTimes = 0
return
}
log.Debugln("ProxyGroup: %s failed count: %d", gb.Name(), gb.failedTimes)
if gb.failedTimes >= gb.maxFailedTimes() {
log.Warnln("because %s failed multiple times, active health check", gb.Name())
gb.healthCheck()
}
}
}()
}
func (gb *GroupBase) healthCheck() {
if gb.failedTesting.Load() {
return
}
gb.failedTesting.Store(true)
wg := sync.WaitGroup{}
for _, proxyProvider := range gb.providers {
wg.Add(1)
proxyProvider := proxyProvider
go func() {
defer wg.Done()
proxyProvider.HealthCheck()
}()
}
wg.Wait()
gb.failedTesting.Store(false)
gb.failedTimes = 0
}
func (gb *GroupBase) failedIntervalTime() int64 {
return 5 * time.Second.Milliseconds()
}
func (gb *GroupBase) onDialSuccess() {
if !gb.failedTesting.Load() {
gb.failedTimes = 0
}
}
func (gb *GroupBase) maxFailedTimes() int {
return 5
}
func (gb *GroupBase) failedTimeoutInterval() time.Duration {
return 5 * time.Second
}