/* * @project: TERA * @version: Development (beta) * @license: MIT (not for evil) * @copyright: Yuriy Ivanov (Vtools) 2017-2019 [progr76@gmail.com] * Web: https://terafoundation.org * Twitter: https://twitter.com/terafoundation * Telegram: https://web.telegram.org/#/im?p=@terafoundation */ "use strict"; const net = require("net"); const dgram = require("dgram"); const crypto = require('crypto'); require("./library.js"); require("./crypto-library"); const HARD_PACKET_PERIOD = 20; global.BUF_TYPE = 1; global.STR_TYPE = 2; global.MAX_STR_BUF_DATA = 200; global.MAX_CONNECTION_ACTIVE = 40; var MAX_CONNECTION_ANOTHER = 40; const TRAFIC_LIMIT_NODE_1S = MAX_BLOCK_SIZE * 1.25; const TRAFIC_LIMIT_1S = 8 * TRAFIC_LIMIT_NODE_1S; global.STAT_PERIOD = CONSENSUS_PERIOD_TIME / 5; const TRAFIC_LIMIT_SEND = TRAFIC_LIMIT_1S * STAT_PERIOD / 1000; const TRAFIC_LIMIT_NODE = TRAFIC_LIMIT_NODE_1S * STAT_PERIOD / 1000; const BUF_PACKET_SIZE = 32 * 1024; global.FORMAT_POW_TO_CLIENT = "{addrArr:hash,HashRND:hash,MIN_POWER_POW_HANDSHAKE:uint,PubKeyType:byte,Sign:arr64,Reserve:arr33}"; global.FORMAT_POW_TO_SERVER = "{\ DEF_NETWORK:str15,\ DEF_VERSION:str9,\ DEF_CLIENT:str16, \ addrArr:addres, \ ToIP:str26,\ ToPort:uint16, \ FromIP:str26,\ FromPort:uint16, \ nonce:uint,\ Reconnect:byte,\ SendBytes:uint,\ PubKeyType:byte,\ Sign:arr64,\ SecretForReconnect:arr20,\ GrayConnect:byte,\ Reserve:arr14\ }"; const WorkStructPacketSend = {}; const FORMAT_PACKET_SEND_TCP = "{\ PacketSize:uint,\ NumXORRND:uint,\ Method:str25,\ NodeTime:time,\ Length:uint,\ ContextID:hash,\ TypeData:byte,\ Hash:hash,\ Data:data,\ }"; module.exports = class CTransport extends require("./connect") { constructor(SetKeyPair, RunIP, RunPort, UseRNDHeader, bVirtual) { super(SetKeyPair, RunIP, RunPort, UseRNDHeader, bVirtual) this.UseRNDHeader = UseRNDHeader this.BAN_IP = {} this.ip = RunIP.trim() this.port = RunPort this.CanSend = 0 this.SendFormatMap = {} this.ActualNodes = new RBTree(function (a,b) { if(b.Prioritet !== a.Prioritet) return b.Prioritet - a.Prioritet; return CompareArr(a.addrArr, b.addrArr); }) this.SendTrafficFree = 0 this.LoadedPacketNum = 0 this.LoadedSocketNum = 0 setInterval(this.DoLoadBuf.bind(this), 1) this.LoadBufSocketList = new RBTree(function (a,b) { if(b.SocketPrioritet !== a.SocketPrioritet) return b.SocketPrioritet - a.SocketPrioritet; return a.SocketNum - b.SocketNum; }) this.BusyLevel = 0 this.LastTimeHard = 0 this.LastTimeHardOK = 0 setInterval(this.DoHardPacketForSend.bind(this), HARD_PACKET_PERIOD) this.HardPacketForSend = new RBTree(function (a,b) { if(b.BlockProcessCount === a.BlockProcessCount) return a.PacketNum - b.PacketNum; else return b.BlockProcessCount - a.BlockProcessCount; }) setInterval(this.DoSendPacket.bind(this), 2) setInterval(this.DoSendBuf.bind(this), 1) var Map = {}; this.MethodTiming = Map MethodTiming: { Map["TRANSFER"] = {Period:700, Hot:1} Map["TRANSFERTX"] = {Period:700, Hot:1} Map["TIME"] = {Period:2000, LowVersion:1, Hard:1, Immediately:1} Map["PING"] = {Period:4000, LowVersion:1, Hard:1, Immediately:1} Map["PONG"] = {Period:0, LowVersion:1, Immediately:1} Map["ADDLEVELCONNECT"] = {Period:1000, Hard:1} Map["RETADDLEVELCONNECT"] = {Period:0} Map["DISCONNECTHOT"] = {Period:1000, Hard:1} Map["GETMESSAGE"] = {Period:1000, Hard:1} Map["MESSAGE"] = {Period:1000, Hard:1} Map["TRANSACTION"] = {Period:PERIOD_GET_BLOCK, Hard:1} Map["GETBLOCKHEADER"] = {Period:PERIOD_GET_BLOCK, Hard:2, Process:global.STATIC_PROCESS} Map["GETBLOCK"] = {Period:PERIOD_GET_BLOCK, Hard:2, Process:global.STATIC_PROCESS} Map["GETNODES"] = {Period:1000, Hard:1, LowVersion:1, IsAddrList:1} Map["RETGETNODES"] = {Period:0, IsAddrList:1} Map["RETGETNODES2"] = {Period:0, IsAddrList:1} Map["GETCODE"] = {Period:10000, Hard:1, LowVersion:1, Process:global.STATIC_PROCESS} Map["RETBLOCKHEADER"] = {Period:0} Map["RETGETBLOCK"] = {Period:0} Map["RETCODE"] = {Period:0} Map["GETREST"] = {Period:1000, Hard:2, Process:global.STATIC_PROCESS} Map["RETREST"] = {Period:0} Map["GETSMART"] = {Period:1000, Hard:2, Process:global.STATIC_PROCESS} Map["RETSMART"] = {Period:0} } if(!this.VirtualMode) this.StartServer() this.CurrentTimeStart = 0 this.CurrentTimeValues = {} this.LoadNodesFromFile() } GetF(Method, bSend) { var name = Method + "-" + bSend; var format = this.SendFormatMap[name]; if(!format) { var F = this.constructor[Method + "_F"]; if(typeof F === "function") { format = {struct:F(bSend), length:8096, wrk:{}} } else { format = "{}" } this.SendFormatMap[name] = format } return format; } SendF(Node, Info, Length) { var format = this.GetF(Info.Method, true); if(!Length) Length = format.length Info.Data = BufLib.GetBufferFromObject(Info.Data, format.struct, Length, format.wrk) this.Send(Node, Info, 1) } DataFromF(Info, bSendFormat) { var format = this.GetF(Info.Method, bSendFormat); try { var Data = BufLib.GetObjectFromBuffer(Info.Data, format.struct, format.wrk); return Data; } catch(e) { ToLog(e) return {}; } } ADD_CURRENT_STAT_TIME(Key, Value) { var TimeNum = Math.floor(Date.now() / STAT_PERIOD); if(this.CurrentTimeStart !== TimeNum) this.CurrentTimeValues = {} this.CurrentTimeStart = TimeNum if(!this.CurrentTimeValues[Key]) this.CurrentTimeValues[Key] = 0 this.CurrentTimeValues[Key] += Value } GET_CURRENT_STAT_TIME(Key) { var TimeNum = Math.floor(Date.now() / STAT_PERIOD); if(this.CurrentTimeStart === TimeNum) { var Value = this.CurrentTimeValues[Key]; if(Value === undefined) return 0; else return Value; } else { return 0; } } RecalcSendStatictic() { var TimeNum = Math.floor(Date.now() / STAT_PERIOD); if(this.SendStatNum === TimeNum) return ; this.SendStatNum = TimeNum var Period = CONSENSUS_PERIOD_TIME / STAT_PERIOD; this.SendTrafficFree = TRAFIC_LIMIT_SEND var it = this.ActualNodes.iterator(), Node; while((Node = it.next()) !== null) { { var arr = Node.TrafficArr; arr.push(Node.BufWriteLength) Node.BufWriteLength = 0 if(arr.length > 5 * Period) { arr.shift() } else { if(arr.length < 3 * Period) continue; } var arrAvg = [], arrK = []; var valNext = CalcStatArr(arr, arrAvg, arrK, Period); valNext = Math.min(valNext, TRAFIC_LIMIT_NODE) Node.SendTrafficLimit = Math.min(this.SendTrafficFree, valNext * 1.1) this.SendTrafficFree -= Node.SendTrafficLimit } Node.SendTrafficCurrent = 0 ADD_TO_STAT("MAX:NODE_TRAFFIC_LIMIT:" + NodeName(Node), 1000 / STAT_PERIOD * Node.SendTrafficLimit / 1024, 1) } this.SendTrafficFree += TRAFIC_LIMIT_NODE ADD_TO_STAT("SEND_TRAFFIC_FREE", this.SendTrafficFree / 1024) } OnGetMethod(Info, CurTime) { if(DEBUG_MODE) { var Str = ""; if(Info.Data && Info.Data.Length) Str = " LENGTH=" + Info.Data.Length TO_DEBUG_LOG("GET:" + Info.Method + Str + " from: Node=" + NodeInfo(Info.Node)) } if(global.ADDRLIST_MODE) { var StrOK = ",HAND,GETNODES,"; if(StrOK.indexOf("," + Info.Method + ",") === - 1) return ; } Info.Node.LastTime = CurTime - 0 if(Info.Context && typeof Info.Context.F === "function") { Info.Context.F(Info, CurTime) } else { var F = this[Info.Method.toUpperCase()]; if(typeof F === "function") { F.bind(this)(Info, CurTime) } else { TO_ERROR_LOG("TRANSPORT", 20, "Method '" + Info.Method + "' not found Socket=*" + Info.Socket.ConnectID, "node", Info.Node) this.AddCheckErrCount(Info.Node, 1, "Method not found") } } } GetActualNodes() { var Arr = []; var it = this.ActualNodes.iterator(), Item; while((Item = it.next()) !== null) { if(GetSocketStatus(Item.Socket) >= 100) Arr.push(Item) else { this.DeleteNodeFromActive(Item) } } return Arr; } NodeIp(Node) { if(Node.ip_arrival) { return {ip:Node.ip_arrival, port:Node.port_arrival}; } else { return {ip:Node.ip, port:Node.port}; } } SetXORHeader(buf, bForce) { if(this.UseRNDHeader || bForce) { var HashHashSign = shaarr(buf.slice(buf.length - 32, buf.length)); for(var i = 0; i < 32; i++) buf[i] = HashHashSign[i] ^ buf[i] } } WasBanIP(rinfo) { if(!rinfo || !rinfo.address) return false; var Key = "" + rinfo.address.trim(); var Stat = this.BAN_IP[Key]; if(Stat) { if(Stat.TimeTo > (GetCurrentTime(0) - 0)) return true; } return false; } NodeInBan(Node) { return this.WasBanIP({address:Node.ip}); } DeleteNodeFromActiveByIP(ip) { var Arr = this.GetActualNodes(); for(var i = 0; i < Arr.length; i++) { var Node = Arr[i]; if(Node.ip === ip) { this.DeleteNodeFromActive(Node) } } } AddToBan(Node, Str) { if(global.NeedRestart) return ; this.DeleteNodeFromActive(Node) if(!Node.ip) return ; var Key = "" + Node.ip.trim(); if(!Node.DeltaBan) Node.DeltaBan = 300 if(Node.DeltaBan > 1000000) Node.DeltaBan = 1000000 Node.DeltaBan = Node.DeltaBan * 2 var TimeTo = (GetCurrentTime(0) - 0) + Node.DeltaBan * 1000; this.BAN_IP[Key] = {TimeTo:TimeTo} Node.BlockProcessCount = 0 this.DeleteNodeFromActiveByIP(Node.ip) ADD_TO_STAT("AddToBan") } AddToBanIP(ip, Str, Period) { if(!Period) Period = 600 * 1000 var Key = "" + ip.trim(); this.BAN_IP[Key] = {TimeTo:(GetCurrentTime(0) - 0) + Period} this.DeleteNodeFromActiveByIP(ip) ToLog("ADD TO BAN:: " + Key + " " + Str) ADD_TO_STAT("AddToBanIP") } OnPacketTCP(Meta) { var startTime = process.hrtime(); ADD_TO_STAT("USEPACKET") var CurTime = GetCurrentTime(); Meta.Node.LastTime = CurTime - 0 if(Meta.MethodTiming.Process && Meta.MethodTiming.Process.Worker) { var Data = this.DataFromF(Meta); Meta.MethodTiming.Process.Worker.send({cmd:Meta.Method, Data:Data, addrStr:Meta.Node.addrStr, Context:Meta.Context}) } else { this.OnGetMethod(Meta, CurTime) } ADD_TO_STAT_TIME("MAX:TIME_USE_PACKET", startTime) ADD_TO_STAT_TIME("TIME_USE_PACKET", startTime) ADD_TO_STAT_TIME("MAX:TIME_USE_PACKET:" + Meta.Method, startTime) } GetBufFromData(Method, Data, TypeData, ContextID) { var BufData; if(TypeData === BUF_TYPE) { BufData = Data } else if(TypeData === STR_TYPE) { BufData = Buffer.from(Data.substr(0, MAX_STR_BUF_DATA)) } else { if(Data === undefined) { TypeData = BUF_TYPE BufData = Buffer.alloc(0) } else { throw "ERROR TYPE DATA"; } } var BUF = {}; BUF.PacketSize = 0 BUF.NumXORRND = 0 BUF.Method = Method BUF.NodeTime = GetCurrentTime() BUF.TypeData = TypeData BUF.Length = BufData.length BUF.Data = BufData BUF.ContextID = ContextID BUF.Hash = this.GetHashFromData(BUF) var BufWrite = BufLib.GetBufferFromObject(BUF, FORMAT_PACKET_SEND_TCP, BufData.length + 300, WorkStructPacketSend); BufWrite.len = 0 BufLib.Write(BufWrite, BufWrite.length, "uint") return BufWrite; } GetDataFromBuf(buf) { try { var Meta = BufLib.GetObjectFromBuffer(buf, FORMAT_PACKET_SEND_TCP, WorkStructPacketSend); } catch(e) { TO_ERROR_LOG("TRANSPORT", 640, "Error parsing Buffer") return undefined; } var Hash = this.GetHashFromData(Meta); if(CompareArr(Hash, Meta.Hash) !== 0) { if(global.WATCHDOG_DEV) TO_ERROR_LOG("TRANSPORT", 645, "Error hash Buffer") return undefined; } if(Meta.TypeData === STR_TYPE) { Meta.Data = Meta.Data.slice(0, MAX_STR_BUF_DATA).toString() } return Meta; } GetHashFromData(Info) { return shaarr(Info.Method + Info.Length + "-" + (Info.NodeTime - 0)); } OnGetFromTCP(Node, Socket, Buf) { if(!Node) return ; if(!Node.Socket) Node.Socket = Socket if(!Socket.Buf || Socket.Buf.length === 0) { Socket.Buf = Buf } else { Socket.Buf = Buffer.concat([Socket.Buf, Buf]) } if(!Socket.SocketNum) { this.LoadedSocketNum++ Socket.SocketNum = this.LoadedSocketNum Socket.SocketPrioritet = Node.BlockProcessCount } this.LoadBufSocketList.insert(Socket) } DoLoadBuf() { var Socket = this.LoadBufSocketList.min(); if(!Socket) return ; this.LoadBufSocketList.remove(Socket) if(Socket.WasClose) return ; while(true) { if(Socket.Buf && Socket.Buf.length > 6) { ADD_TO_STAT("MAX:BUFFE_LOAD_SIZE", Socket.Buf.length / 1024) Socket.Buf.len = 0 var PacketSize = BufLib.Read(Socket.Buf, "uint"); if(PacketSize > MAX_PACKET_LENGTH) { this.SendCloseSocket(Socket, "MAX_PACKET_LENGTH") break; } else if(Socket.Buf.length >= PacketSize) { var data = Socket.Buf.slice(0, PacketSize); Socket.Buf = Socket.Buf.slice(PacketSize, Socket.Buf.length) var Res = this.DoDataFromTCP(Socket, data); if(Res) { continue; } } } break; } } DoDataFromTCP(Socket, buf) { this.LoadedPacketNum++ var Node = Socket.Node; if(!Node) return 0; var startTime = process.hrtime(); ADD_TO_STAT("GETDATA(KB)", buf.length / 1024) ADD_TO_STAT("GETDATA(KB):" + NodeName(Node), buf.length / 1024, 1) if(!Node.TransferSize) Node.TransferSize = 0 Node.TransferSize += buf.length / 1024 Node.TransferBlockNumFix = this.CurrentBlockNum var Buf = this.GetDataFromBuf(buf); if(!Buf) { this.AddCheckErrCount(Node, 1, "Err GetDataFromBuf") this.SendCloseSocket(Socket, "FORMAT_PACKET_SEND_TCP") return 0; } ADD_TO_STAT("GET:" + Buf.Method) ADD_TO_STAT("GET:(KB)" + Buf.Method, buf.length / 1024) ADD_TO_STAT("GET:" + Buf.Method + ":" + NodeName(Node), 1, 1) var Param = this.MethodTiming[Buf.Method]; if(this.StopDoSendPacket(Param, Node, Buf.Method)) { return 1; } if(!IsZeroArr(Buf.ContextID)) { Buf.Context = global.ContextPackets.LoadValue(Buf.ContextID) } if(!Buf.Context) { if(Param && Param.Period === 0 && Buf.Method !== "RETBLOCKHEADER") { this.AddCheckErrCount(Node, 1) return ; } Buf.Context = {} } Buf.Context.ContextID = Buf.ContextID Buf.Node = Node Buf.Socket = Socket Buf.MethodTiming = Param if(!global.ADDRLIST_MODE || Param.IsAddrList) { if(Param.Hard) { if(Param.Immediately && this.HardPacketForSend.size <= 3) { this.OnPacketTCP(Buf) } else { Buf.PacketNum = this.LoadedPacketNum Buf.BlockProcessCount = Node.BlockProcessCount Buf.TimeLoad = Date.now() this.HardPacketForSend.insert(Buf) } } else { this.OnPacketTCP(Buf) } } ADD_TO_STAT_TIME("MAX:TIMEDOGETDATA", startTime) return 1; } StopDoSendPacket(Param, Node, Name) { var CurTime = GetCurrentTime(0) - 0; if(!Param) { ADD_TO_STAT("STOP_METHOD") ADD_TO_STAT("STOP_METHOD:NO") this.AddCheckErrCount(Node, 1) return 1; } if(Param.Hot && !Node.Hot) { this.AddCheckErrCount(Node, 1) return 0; } if(Param.Period && !Node.VersionOK && !Param.LowVersion) { ADD_TO_STAT("STOP_METHOD") ADD_TO_STAT("STOP_METHOD:LOWVERSION:" + Name) return 1; } if(global.STOPGETBLOCK && Param.Hard === 2 && Node.BlockProcessCount < 1000000) { Node.NextPing = 1 * 1000 ADD_TO_STAT("STOP_METHOD") ADD_TO_STAT("STOP_METHOD:STOPGETBLOCK:" + Name) this.AddCheckErrCount(Node, 0.5) return 1; } var ArrTime = Node.TimeMap[Name]; if(!ArrTime) { ArrTime = [0, 0, 0] Node.TimeMap[Name] = ArrTime } ArrTime.sort(function (a,b) { return a - b; }) var Delta = CurTime - ArrTime[0]; if(Delta < Param.Period) { ADD_TO_STAT("STOP_METHOD") ADD_TO_STAT("STOP_METHOD:" + Name) this.AddCheckErrCount(Node, 1) return 1; } ArrTime[0] = CurTime return 0; } DoHardPacketForSend() { ADD_TO_STAT("MAX:BUSY_LEVEL", this.BusyLevel) ADD_TO_STAT("MAX:HARD_PACKET_SIZE", this.HardPacketForSend.size) var Delta = Date.now() - this.LastTimeHard; this.LastTimeHard = Date.now() if(Delta > global.HARD_PACKET_PERIOD120 * HARD_PACKET_PERIOD / 100) { ADD_TO_STAT("HARD_PACKET_PERIOD120") var Delta2 = Date.now() - this.LastTimeHardOK; if(Delta2 > 100) { var Info = this.HardPacketForSend.min(); this.RiseBusyLevelByInfo(Info) } return ; } if(this.BusyLevel) this.BusyLevel = this.BusyLevel / 1.1 this.LastTimeHardOK = Date.now() ADD_TO_STAT("HARD_PACKET_PERIOD") this.DoHardPacketForSendNext() } RiseBusyLevelByInfo(Info) { if(!Info) return ; if(!this.BusyLevel) this.BusyLevel = 1 if(Info.BlockProcessCount > this.BusyLevel) this.BusyLevel = Info.BlockProcessCount + 1 if(this.BusyLevel <= 0) this.BusyLevel = 1 } DropBusyLevelByInfo(Info) { if(!Info) return ; if(this.BusyLevel > Info.BlockProcessCount) this.BusyLevel = Info.BlockProcessCount - 1 if(this.BusyLevel < 0) this.BusyLevel = 0 } DoHardPacketForSendNext() { var Info = this.HardPacketForSend.min(); if(!Info) { this.BusyLevel = 0 return ; } this.DropBusyLevelByInfo(Info) this.HardPacketForSend.remove(Info) this.OnPacketTCP(Info) ADD_TO_STAT("DO_HARD_PACKET") ADD_TO_STAT("DO_HARD_PACKET:" + Info.Method) var DeltaTime = Date.now() - Info.TimeLoad; if(this.HardPacketForSend.size && DeltaTime > PACKET_ALIVE_PERIOD / 2) { ADD_TO_STAT("DELETE_HARD_PACKET_OLD", this.HardPacketForSend.size) this.HardPacketForSend.clear() return ; } var MaxCount = 20; while(Info = this.HardPacketForSend.max()) { var DeltaTime = Date.now() - Info.TimeLoad; if(DeltaTime > PACKET_ALIVE_PERIOD / 2 || !Info.Node.Socket || Info.Node.Socket.WasClose) { this.HardPacketForSend.remove(Info) if(DeltaTime > PACKET_ALIVE_PERIOD / 2) { this.RiseBusyLevelByInfo(Info) Info.Node.NextPing = 1 * 1000 this.AddCheckErrCount(Info.Node, 0.2) ADD_TO_STAT("DELETE_HARD_PACKET_OLD") ADD_TO_STAT("DELETE_HARD_PACKET_OLD:" + Info.Method) } else { ADD_TO_STAT("DELETE_HARD_PACKET_NO_ALIVE") } } MaxCount-- if(MaxCount <= 0) break; } } Send(Node, Info, TypeData) { if(!Node.Socket) { this.DeleteNodeFromActive(Node) return ; } if(Info.Context) { Info.ContextID = Info.Context.ContextID if(!Info.ContextID) { Info.ContextID = crypto.randomBytes(32) Info.Context.ContextID = Info.ContextID } global.ContextPackets.SaveValue(Info.ContextID, Info.Context) } else { Info.ContextID = [] } Node.SendPacketNum++ Info.Node = Node Info.TypeData = TypeData Info.Prioritet = Node.Prioritet Info.PacketNum = Node.SendPacketNum Info.TimeNum = Date.now() Node.SendPacket.insert(Info) } DoSendPacketNodeAll(Node) { while(this.DoSendPacketNode(Node) === 1); } DoSendPacketNode(Node) { var TimeNum = Date.now(); var Info = Node.SendPacket.max(); if(Info && TimeNum - Info.TimeNum > PACKET_ALIVE_PERIOD) while(Info = Node.SendPacket.max()) { var DeltaTime = TimeNum - Info.TimeNum; if(DeltaTime > PACKET_ALIVE_PERIOD / 2) { Node.SendPacket.remove(Info) ADD_TO_STAT("DELETE_OLD_PACKET") } else break; } Info = Node.SendPacket.min() if(!Info) return 0; ADD_TO_STAT("MAX:NODE_BUF_WRITE:" + NodeName(Node), Node.BufWrite.length / 1024, 1) ADD_TO_STAT("MAX:NODE_SEND_BUF_PACKET_COUNT:" + NodeName(Node), Node.SendPacket.size, 1) if(Node.BufWrite.length > 2 * TRAFIC_LIMIT_1S) { return 2; } Node.SendPacket.remove(Info) if(Info.Context) { if(!Info.Context.SendCount) Info.Context.SendCount = 0 Info.Context.SendCount++ } var BufWrite = this.GetBufFromData(Info.Method, Info.Data, Info.TypeData, Info.ContextID); Node.BufWriteLength += BufWrite.length if(Node.BufWrite.length === 0) Node.BufWrite = BufWrite else Node.BufWrite = Buffer.concat([Node.BufWrite, BufWrite]) ADD_TO_STAT("SEND:" + Info.Method) ADD_TO_STAT("SEND:(KB)" + Info.Method, BufWrite.length / 1024) ADD_TO_STAT("SEND:" + Info.Method + ":" + NodeName(Node), 1, 1) TO_DEBUG_LOG("SEND " + Info.Method + " to " + NodeInfo(Node) + " LENGTH=" + BufWrite.length) return 1; } DoSendPacket() { var it = this.ActualNodes.iterator(), Node; while((Node = it.next()) !== null) if(Node.ConnectStatus() === 100) { this.DoSendPacketNode(Node) } else { ADD_TO_STAT("SEND_ERROR") this.AddCheckErrCount(Node, 0.005, "NODE STATUS=" + Node.ConnectStatus()) } } DoSendBuf() { this.RecalcSendStatictic() var CountNodeSend = 0; var it = this.ActualNodes.iterator(), Node; NEXT_NODE: while((Node = it.next()) !== null) if(Node.Socket && Node.ConnectStatus() === 100) if(Node.BufWrite.length > 0) { CountNodeSend++ var CountSend = Math.min(BUF_PACKET_SIZE, Node.BufWrite.length); var Value = CountSend / 1024; if(global.LIMIT_SEND_TRAFIC) { var CanCountSend = Node.SendTrafficLimit - Node.SendTrafficCurrent; if(CanCountSend < CountSend) { if(this.SendTrafficFree < CountSend) { ADD_TO_STAT("LIMIT_SENDDATA:" + NodeName(Node), Value, 1) continue NEXT_NODE; } this.SendTrafficFree -= CountSend } } Node.write(Node.BufWrite.slice(0, CountSend)) Node.SendTrafficCurrent += CountSend Node.BufWrite = Node.BufWrite.slice(CountSend) this.ADD_CURRENT_STAT_TIME("SEND_DATA", Value) ADD_TO_STAT("SENDDATA(KB)", Value) ADD_TO_STAT("SENDDATA(KB):" + NodeName(Node), Value, 1) } } CheckPOWTicketConnect(Socket, data) { try { var Info = BufLib.GetObjectFromBuffer(data, FORMAT_POW_TO_SERVER, {}); } catch(e) { this.SendCloseSocket(Socket, "FORMAT_POW_TO_SERVER") return ; } if(Info.DEF_NETWORK !== GetNetworkName()) { this.SendCloseSocket(Socket, "DEF_NETWORK=" + Info.DEF_NETWORK + " MUST:" + GetNetworkName()) return ; } var Node = this.FindRunNodeContext(Info.addrArr, Info.FromIP, Info.FromPort, true); if(CompareArr(Info.addrArr, this.addrArr) === 0) { AddNodeInfo(Node, "SERV: GET SELF") this.SendCloseSocket(Socket, "SELF") return ; } var Hash = shaarr2(this.addrArr, Socket.HashRND); var hashInfo = GetHashWithValues(Hash, Info.nonce, 0); var power = GetPowPower(hashInfo); if(Info.Reconnect) { if((Node.SecretForReconnect && Node.WaitConnectFromServer && CompareArr(Node.SecretForReconnect, Info.SecretForReconnect) === 0) || Info.Reconnect === 255) { var Result = 1; if(Info.Reconnect === 255) { Result = CheckDevelopSign(Hash, Info.Sign) } if(Result) { Node.NextConnectDelta = 1000 Node.WaitConnectFromServer = 0 Node.GrayConnect = 0 AddNodeInfo(Node, "3. SERVER OK CONNECT for client node " + SocketInfo(Socket)) this.AddNodeToActive(Node) Node.Socket = Socket SetSocketStatus(Socket, 3) SetSocketStatus(Socket, 100) Socket.Node = Node Socket.write(this.GetBufFromData("POW_CONNECT0", "OK", 2)) return ; } else { Node.NextConnectDelta = 60 * 1000 ToLog("Error Sign Node from " + NodeInfo(Node)) this.AddCheckErrCount(Node, 10, "Error Sign Node") } } AddNodeInfo(Node, "SERV: ERROR_RECONNECT") Socket.end(this.GetBufFromData("POW_CONNEC11", "ERROR_RECONNECT", 2)) CloseSocket(Socket, "ERROR_RECONNECT") return ; } else { if(power < MIN_POWER_POW_HANDSHAKE) { ToLog("END: MIN_POWER_POW_HANDSHAKE") AddNodeInfo(Node, "SERV: ERR MIN_POWER_POW_HANDSHAKE") Socket.end(this.GetBufFromData("POW_CONNECT2", "MIN_POWER_POW_HANDSHAKE", 2)) CloseSocket(Socket, "MIN_POWER_POW_HANDSHAKE") return ; } else { if(!Node.BlockProcessCount) Node.BlockProcessCount = 0 if(this.ActualNodes.size >= MAX_CONNECTIONS_COUNT && Node.BlockProcessCount < global.TRUST_PROCESS_COUNT) { AddNodeInfo(Node, "SERV: ERROR_MAX_CLIENTS") Socket.end(this.GetBufFromData("POW_CONNECT8", "ERROR_MAX_CLIENTS", 2)) CloseSocket(Socket, "ERROR_MAX_CLIENTS") return ; } var Result = false; if(Info.PubKeyType === 2 || Info.PubKeyType === 3) Result = secp256k1.verify(Buffer.from(Hash), Buffer.from(Info.Sign), Buffer.from([Info.PubKeyType].concat(Info.addrArr))) if(!Result) { AddNodeInfo(Node, "SERV: ERROR_SIGN_CLIENT") Socket.end(this.GetBufFromData("POW_CONNECT8", "ERROR_SIGN_CLIENT", 2)) CloseSocket(Socket, "ERROR_SIGN_CLIENT") this.AddToBanIP(Socket.remoteAddress, "ERROR_SIGN_CLIENT") return ; } AddNodeInfo(Node, "1. SERVER OK POW for client node " + SocketInfo(Socket)) Node.FromIP = Info.FromIP Node.FromPort = Info.FromPort Node.SecretForReconnect = crypto.randomBytes(20) Node.PubKey = Buffer.from([Info.PubKeyType].concat(Info.addrArr)) if(Info.GrayConnect) { Node.NextConnectDelta = 1000 Node.WaitConnectFromServer = 0 Node.GrayConnect = 1 AddNodeInfo(Node, "5. CLIENT OK GRAY CONNECT " + SocketInfo(Socket)) this.AddNodeToActive(Node) Node.Socket = Socket SetSocketStatus(Socket, 3) SetSocketStatus(Socket, 100) Socket.Node = Node Socket.write(this.GetBufFromData("POW_CONNECT0", "OK", 2)) return ; } if(!Node.WasAddToReconnect) { Node.WasAddToReconnect = 1 Node.ReconnectFromServer = 1 global.ArrReconnect.push(Node) } Socket.write(this.GetBufFromData("POW_CONNECT4", "WAIT_CONNECT_FROM_SERVER:" + GetHexFromArr(Node.SecretForReconnect), 2)) } } } StopServer() { if(this.Server) this.Server.close() } StartServer() { if(GrayConnect()) { this.CanSend++ return ; } let SELF = this; this.Server = net.createServer(function (sock) { if(SELF.WasBanIP({address:sock.remoteAddress})) { sock.ConnectID = "new" CloseSocket(sock, "WAS BAN", true) return ; } let SOCKET = sock; socketInit(SOCKET, "c") SetSocketStatus(SOCKET, 0) AddNodeInfo(SOCKET, "Client *" + SOCKET.ConnectID + " connected from " + SOCKET.remoteAddress + ":" + SOCKET.remotePort, 1) ADD_TO_STAT("ClientConnected") SOCKET.HashRND = crypto.randomBytes(32) var Data = {addrArr:SELF.addrArr, HashRND:SOCKET.HashRND, MIN_POWER_POW_HANDSHAKE:MIN_POWER_POW_HANDSHAKE, PubKeyType:SELF.PubKeyType, Sign:SELF.ServerSign, Reserve:[]}; var BufData = BufLib.GetBufferFromObject(Data, FORMAT_POW_TO_CLIENT, 300, {}); var BufWrite = SELF.GetBufFromData("POW_CONNECT5", BufData, 1); try { SOCKET.write(BufWrite) } catch(e) { ToError(e) SOCKET = undefined return ; } SOCKET.on('data', function (data) { if(SOCKET.WasClose) { return ; } if(!SOCKET.Node) { var Buf = SELF.GetDataFromBuf(data); if(Buf) { SELF.CheckPOWTicketConnect(SOCKET, Buf.Data) SOCKET.ConnectToServer = 0 return ; } CloseSocket(SOCKET, "=SERVER ON DATA=") } else { socketRead(SOCKET, data) SELF.OnGetFromTCP(SOCKET.Node, SOCKET, data) } }) SOCKET.on('end', function () { ADD_TO_STAT("ClientEnd") var Node = SOCKET.Node; var Status = GetSocketStatus(SOCKET); if(Status) AddNodeInfo(Node, "Get socket end *" + SOCKET.ConnectID + " from client Stat: " + SocketStatistic(SOCKET)) if(Node && Status === 200) { Node.SwapSockets() SOCKET.WasClose = 1 } }) SOCKET.on('close', function (err) { ADD_TO_STAT("ClientClose") if(SOCKET.ConnectID && GetSocketStatus(SOCKET)) AddNodeInfo(SOCKET.Node, "Get socket close *" + SOCKET.ConnectID + " from client Stat: " + SocketStatistic(SOCKET)) if(!SOCKET.WasClose && SOCKET.Node) { CloseSocket(SOCKET, "GET CLOSE") } SetSocketStatus(SOCKET, 0) }) SOCKET.on('error', function (err) { ADD_TO_STAT("ERRORS") CloseSocket(SOCKET, "ERRORS") if(SOCKET.Node) SELF.AddCheckErrCount(SOCKET.Node, 1, "ERR##2 : socket") }) }) this.Server.on('close', function () { }) this.Server.on('error', function (err) { if(err.code === 'EADDRINUSE') { ToLogClient('Port ' + SELF.port + ' in use, retrying...') if(SELF.Server) SELF.Server.close() setTimeout(function () { SELF.RunListenServer() }, 5000) return ; } ADD_TO_STAT("ERRORS") ToError("ERR##3") }) if(!SELF.ip) { this.FindInternetIP() } else { this.CanSend++ this.RunListenServer() } } RunListenServer() { if(!START_PORT_NUMBER || START_PORT_NUMBER === "undefined") START_PORT_NUMBER = 30000 let SELF = this; SELF.port = START_PORT_NUMBER ToLogClient("Prepare to run TCP server on port: " + SELF.port) this.Server.listen(SELF.port, '0.0.0.0', function () { if(SELF.CanSend < 2) ToLogClient("Run TCP server on " + SELF.ip + ":" + SELF.port) SELF.CanSend++ var Hash = shaarr(SELF.addrStr); SELF.ServerSign = secp256k1.sign(Buffer.from(Hash), SELF.KeyPair.getPrivateKey('')).signature }) } FindInternetIP() { let SELF = this; let server = Stun.createServer(this.Net4); const request = Stun.createMessage(Stun.constants.STUN_BINDING_REQUEST); server.on('error', function (err) { SELF.CanSend++ }) server.once('bindingResponse', function (stunMsg) { var value = stunMsg.getAttribute(Stun.constants.STUN_ATTR_XOR_MAPPED_ADDRESS).value; ToLog("INTERNET IP:" + value.address) SELF.CanSend++ global.INTERNET_IP_FROM_STUN = value.address if(!SELF.ip) SELF.ip = INTERNET_IP_FROM_STUN if(server) server.close() SELF.RunListenServer() }) var StrStunAddr = 'stun.l.google.com'; const dns = require('dns'); dns.lookup(StrStunAddr, function (err,address,family) { if(!err) server.send(request, 19302, StrStunAddr) else SELF.CanSend++ }) } CLOSE_SOCKET(Context, CurTime) { AddNodeInfo(Context.Socket.Node, "GET CLOSE_SOCKET *" + Context.Socket.ConnectID + ": " + Context.Data.toString()) CloseSocket(Context.Socket, "CLOSE_SOCKET") } SendCloseSocket(Socket, Str) { AddNodeInfo(Socket.Node, "CLOSE_SOCKET " + SocketInfo(Socket) + " - " + Str) if(Socket.WasClose) { return ; } this.AddCheckErrCount(Socket.Node, 1, "SendCloseSocket") if(Socket.Node && Socket.Node.BufWrite && Socket.Node.BufWrite.length > 0) { } else { AddNodeInfo(Socket.Node, "END *" + Socket.ConnectID + ": " + Str) Socket.end(this.GetBufFromData("CLOSE_SOCKET", Str, 2)) } CloseSocket(Socket, Str) } AddCheckErrCount(Node, Count, StrErr) { if(!Node) return ; if(!Count) Count = 1 var Delta = Date.now() - Node.LastTimeError; if(Delta > 10 * 1000) { Node.ErrCount = 0 } Node.LastTimeError = Date.now() Node.ErrCountAll += Count Node.ErrCount += Count if(Node.ErrCount >= 5) { Node.ErrCount = 0 ADD_TO_STAT("ERRORS") Node.BlockProcessCount-- if(Node.BlockProcessCount < - 30) { if(!StrErr) StrErr = "" this.AddToBan(Node, StrErr + " BlockProcess:" + Node.BlockProcessCount) } else { } } } }; global.ContextPackets = new STreeBuffer(10 * 1000, CompareItemHash32, "object"); function CalcStatArr(arr,arrAvg,arrNext,Period) { var arrSum = [arr[0]]; for(var i = 1; i < arr.length; i++) { arrSum[i] = arrSum[i - 1] + arr[i]; } for(var i = 0; i < arrSum.length; i++) { if(i < Period) arrAvg[i] = Math.floor(arrSum[i] / (i + 1)); else { arrAvg[i] = Math.floor((arrSum[i] - arrSum[i - Period]) / Period); } } arrNext[0] = 0; for(var i = 1; i < arrAvg.length; i++) { var Avg = arrSum[i] / (i + 1); var minValue = Avg / 20; var Value1 = arrAvg[i - 1]; var Value2 = arrAvg[i]; if(Value1 < minValue) Value1 = minValue; if(Value2 < minValue) Value2 = minValue; var KLast = Math.floor(100 * (Value2 - Value1) / Value1) / 100; var AvgLast = arrAvg[i]; if(Avg > AvgLast) AvgLast = Avg; if(KLast > 2.0) KLast = 2.0; if(KLast < - 0.0) KLast = - 0.0; arrNext[i] = AvgLast * (1 + KLast); var AvgMax = 0; if(0) if(i > 1 * Period) { for(var j = i - Period / 2; j <= i; j++) if(arrAvg[j] > AvgMax) AvgMax = arrAvg[j]; } } return arrNext[arrNext.length - 1]; };