github.com/xraypb/Xray-core@v1.8.1/app/proxyman/inbound/always.go (about) 1 package inbound 2 3 import ( 4 "context" 5 6 "github.com/xraypb/Xray-core/app/proxyman" 7 "github.com/xraypb/Xray-core/common" 8 "github.com/xraypb/Xray-core/common/dice" 9 "github.com/xraypb/Xray-core/common/errors" 10 "github.com/xraypb/Xray-core/common/mux" 11 "github.com/xraypb/Xray-core/common/net" 12 "github.com/xraypb/Xray-core/core" 13 "github.com/xraypb/Xray-core/features/policy" 14 "github.com/xraypb/Xray-core/features/stats" 15 "github.com/xraypb/Xray-core/proxy" 16 "github.com/xraypb/Xray-core/transport/internet" 17 ) 18 19 func getStatCounter(v *core.Instance, tag string) (stats.Counter, stats.Counter) { 20 var uplinkCounter stats.Counter 21 var downlinkCounter stats.Counter 22 23 policy := v.GetFeature(policy.ManagerType()).(policy.Manager) 24 if len(tag) > 0 && policy.ForSystem().Stats.InboundUplink { 25 statsManager := v.GetFeature(stats.ManagerType()).(stats.Manager) 26 name := "inbound>>>" + tag + ">>>traffic>>>uplink" 27 c, _ := stats.GetOrRegisterCounter(statsManager, name) 28 if c != nil { 29 uplinkCounter = c 30 } 31 } 32 if len(tag) > 0 && policy.ForSystem().Stats.InboundDownlink { 33 statsManager := v.GetFeature(stats.ManagerType()).(stats.Manager) 34 name := "inbound>>>" + tag + ">>>traffic>>>downlink" 35 c, _ := stats.GetOrRegisterCounter(statsManager, name) 36 if c != nil { 37 downlinkCounter = c 38 } 39 } 40 41 return uplinkCounter, downlinkCounter 42 } 43 44 type AlwaysOnInboundHandler struct { 45 proxy proxy.Inbound 46 workers []worker 47 mux *mux.Server 48 tag string 49 } 50 51 func NewAlwaysOnInboundHandler(ctx context.Context, tag string, receiverConfig *proxyman.ReceiverConfig, proxyConfig interface{}) (*AlwaysOnInboundHandler, error) { 52 rawProxy, err := common.CreateObject(ctx, proxyConfig) 53 if err != nil { 54 return nil, err 55 } 56 p, ok := rawProxy.(proxy.Inbound) 57 if !ok { 58 return nil, newError("not an inbound proxy.") 59 } 60 61 h := &AlwaysOnInboundHandler{ 62 proxy: p, 63 mux: mux.NewServer(ctx), 64 tag: tag, 65 } 66 67 uplinkCounter, downlinkCounter := getStatCounter(core.MustFromContext(ctx), tag) 68 69 nl := p.Network() 70 pl := receiverConfig.PortList 71 address := receiverConfig.Listen.AsAddress() 72 if address == nil { 73 address = net.AnyIP 74 } 75 76 mss, err := internet.ToMemoryStreamConfig(receiverConfig.StreamSettings) 77 if err != nil { 78 return nil, newError("failed to parse stream config").Base(err).AtWarning() 79 } 80 81 if receiverConfig.ReceiveOriginalDestination { 82 if mss.SocketSettings == nil { 83 mss.SocketSettings = &internet.SocketConfig{} 84 } 85 if mss.SocketSettings.Tproxy == internet.SocketConfig_Off { 86 mss.SocketSettings.Tproxy = internet.SocketConfig_Redirect 87 } 88 mss.SocketSettings.ReceiveOriginalDestAddress = true 89 } 90 if pl == nil { 91 if net.HasNetwork(nl, net.Network_UNIX) { 92 newError("creating unix domain socket worker on ", address).AtDebug().WriteToLog() 93 94 worker := &dsWorker{ 95 address: address, 96 proxy: p, 97 stream: mss, 98 tag: tag, 99 dispatcher: h.mux, 100 sniffingConfig: receiverConfig.GetEffectiveSniffingSettings(), 101 uplinkCounter: uplinkCounter, 102 downlinkCounter: downlinkCounter, 103 ctx: ctx, 104 } 105 h.workers = append(h.workers, worker) 106 } 107 } 108 if pl != nil { 109 for _, pr := range pl.Range { 110 for port := pr.From; port <= pr.To; port++ { 111 if net.HasNetwork(nl, net.Network_TCP) { 112 newError("creating stream worker on ", address, ":", port).AtDebug().WriteToLog() 113 114 worker := &tcpWorker{ 115 address: address, 116 port: net.Port(port), 117 proxy: p, 118 stream: mss, 119 recvOrigDest: receiverConfig.ReceiveOriginalDestination, 120 tag: tag, 121 dispatcher: h.mux, 122 sniffingConfig: receiverConfig.GetEffectiveSniffingSettings(), 123 uplinkCounter: uplinkCounter, 124 downlinkCounter: downlinkCounter, 125 ctx: ctx, 126 } 127 h.workers = append(h.workers, worker) 128 } 129 130 if net.HasNetwork(nl, net.Network_UDP) { 131 worker := &udpWorker{ 132 tag: tag, 133 proxy: p, 134 address: address, 135 port: net.Port(port), 136 dispatcher: h.mux, 137 sniffingConfig: receiverConfig.GetEffectiveSniffingSettings(), 138 uplinkCounter: uplinkCounter, 139 downlinkCounter: downlinkCounter, 140 stream: mss, 141 ctx: ctx, 142 } 143 h.workers = append(h.workers, worker) 144 } 145 } 146 } 147 } 148 149 return h, nil 150 } 151 152 // Start implements common.Runnable. 153 func (h *AlwaysOnInboundHandler) Start() error { 154 for _, worker := range h.workers { 155 if err := worker.Start(); err != nil { 156 return err 157 } 158 } 159 return nil 160 } 161 162 // Close implements common.Closable. 163 func (h *AlwaysOnInboundHandler) Close() error { 164 var errs []error 165 for _, worker := range h.workers { 166 errs = append(errs, worker.Close()) 167 } 168 errs = append(errs, h.mux.Close()) 169 if err := errors.Combine(errs...); err != nil { 170 return newError("failed to close all resources").Base(err) 171 } 172 return nil 173 } 174 175 func (h *AlwaysOnInboundHandler) GetRandomInboundProxy() (interface{}, net.Port, int) { 176 if len(h.workers) == 0 { 177 return nil, 0, 0 178 } 179 w := h.workers[dice.Roll(len(h.workers))] 180 return w.Proxy(), w.Port(), 9999 181 } 182 183 func (h *AlwaysOnInboundHandler) Tag() string { 184 return h.tag 185 } 186 187 func (h *AlwaysOnInboundHandler) GetInbound() proxy.Inbound { 188 return h.proxy 189 }