部署
进入cloudflare创建workers
然后进入你的代码编辑页面,粘贴下方代码。
需要改动以下内容
userID
此为vless鉴定用户的id,需自行生成并替换。
proxyIPs
代理服务器的域名或IP地址,即利用哪些可以的cloud flare反代。
JS
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const proxyIPs = [ "workers.cloudflare.cyou", "cdn.xn--b6gac.eu.org", "cdn-all.xn--b6gac.eu.org", "edgetunnel.anycast.eu.org" ]; |
cn_hostnames
在代码最后部分,表示伪装域名
查看部署情况
如图,Subdomain是你的子域,如果你的workers为vless,那么对应地址即为vless.username.workers.dev
访问该地址即显示伪装域名(cn_hostnames)对应页面
在伪装域名后添加之前输入的userid即可看到代理信息。
自定义域名开启TLS
开启TLS需要自定义域名,开启TLS安全性会显著高于为开启,部署workers开启TLS需要自定义域名。
找到刚刚部署的vless,为其添加已经在cloudflare解析的域名(或子域)
设置完成后,在浏览器地址栏输入:你设置的自定义域名/你设置的UUID,只要这样才会显示出tls配置
自选域名
即泛播cloudflare,解析域名即可得到较快的ip
代码如下
JS
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// <!--GAMFC-->version base on commit 43fad05dcdae3b723c53c226f8181fc5bd47223e, time is 2023-06-22 15:20:02 UTC<!--GAMFC-END-->. // @ts-ignore import { connect } from 'cloudflare:sockets'; // How to generate your own UUID: // [Windows] Press "Win + R", input cmd and run: Powershell -NoExit -Command "[guid]::NewGuid()" let userID = '77a571fb-4fd2-4b37-8596-1b7d9728bb5c'; const proxyIPs = ["workers.cloudflare.cyou"];//['cdn.xn--b6gac.eu.org', 'cdn-all.xn--b6gac.eu.org', 'edgetunnel.anycast.eu.org']; let proxyIP = proxyIPs[Math.floor(Math.random() * proxyIPs.length)]; let dohURL = 'https://sky.rethinkdns.com/1:-Pf_____9_8A_AMAIgE8kMABVDDmKOHTAKg='; // https://cloudflare-dns.com/dns-query or https://dns.google/dns-query // v2board api environment variables (optional) deprecated, please use planetscale.com instead if (!isValidUUID(userID)) { throw new Error('uuid is invalid'); } export default { /** * @param {import("@cloudflare/workers-types").Request} request * @param {{UUID: string, PROXYIP: string, DNS_RESOLVER_URL: string, NODE_ID: int, API_HOST: string, API_TOKEN: string}} env * @param {import("@cloudflare/workers-types").ExecutionContext} ctx * @returns {Promise<Response>} */ async fetch(request, env, ctx) { // uuid_validator(request); try { userID = env.UUID || userID; proxyIP = env.PROXYIP || proxyIP; dohURL = env.DNS_RESOLVER_URL || dohURL; let userID_Path = userID; if (userID.includes(',')) { userID_Path = userID.split(',')[0]; } const upgradeHeader = request.headers.get('Upgrade'); if (!upgradeHeader || upgradeHeader !== 'websocket') { const url = new URL(request.url); switch (url.pathname) { case `/cf`: { return new Response(JSON.stringify(request.cf, null, 4), { status: 200, headers: { "Content-Type": "application/json;charset=utf-8", }, }); } case `/${userID_Path}`: { const vlessConfig = getVLESSConfig(userID, request.headers.get('Host')); return new Response(`${vlessConfig}`, { status: 200, headers: { "Content-Type": "text/html; charset=utf-8", } }); }; case `/sub/${userID_Path}`: { const url = new URL(request.url); const searchParams = url.searchParams; const vlessSubConfig = createVLESSSub(userID, request.headers.get('Host')); // Construct and return response object return new Response(btoa(vlessSubConfig), { status: 200, headers: { "Content-Type": "text/plain;charset=utf-8", } }); }; default: // return new Response('Not found', { status: 404 }); // For any other path, reverse proxy to 'ramdom website' and return the original response, caching it in the process const randomHostname = cn_hostnames[Math.floor(Math.random() * cn_hostnames.length)]; const newHeaders = new Headers(request.headers); newHeaders.set('cf-connecting-ip', '1.2.3.4'); newHeaders.set('x-forwarded-for', '1.2.3.4'); newHeaders.set('x-real-ip', '1.2.3.4'); newHeaders.set('referer', 'https://www.google.com/search?q=edtunnel'); // Use fetch to proxy the request to 15 different domains const proxyUrl = 'https://' + randomHostname + url.pathname + url.search; let modifiedRequest = new Request(proxyUrl, { method: request.method, headers: newHeaders, body: request.body, redirect: 'manual', }); const proxyResponse = await fetch(modifiedRequest, { redirect: 'manual' }); // Check for 302 or 301 redirect status and return an error response if ([301, 302].includes(proxyResponse.status)) { return new Response(`Redirects to ${randomHostname} are not allowed.`, { status: 403, statusText: 'Forbidden', }); } // Return the response from the proxy server return proxyResponse; } } else { return await vlessOverWSHandler(request); } } catch (err) { /** @type {Error} */ let e = err; return new Response(e.toString()); } }, }; export async function uuid_validator(request) { const hostname = request.headers.get('Host'); const currentDate = new Date(); const subdomain = hostname.split('.')[0]; const year = currentDate.getFullYear(); const month = String(currentDate.getMonth() + 1).padStart(2, '0'); const day = String(currentDate.getDate()).padStart(2, '0'); const formattedDate = `${year}-${month}-${day}`; // const daliy_sub = formattedDate + subdomain const hashHex = await hashHex_f(subdomain); // subdomain string contains timestamps utc and uuid string TODO. console.log(hashHex, subdomain, formattedDate); } export async function hashHex_f(string) { const encoder = new TextEncoder(); const data = encoder.encode(string); const hashBuffer = await crypto.subtle.digest('SHA-256', data); const hashArray = Array.from(new Uint8Array(hashBuffer)); const hashHex = hashArray.map(byte => byte.toString(16).padStart(2, '0')).join(''); return hashHex; } /** * Handles VLESS over WebSocket requests by creating a WebSocket pair, accepting the WebSocket connection, and processing the VLESS header. * @param {import("@cloudflare/workers-types").Request} request The incoming request object. * @returns {Promise<Response>} A Promise that resolves to a WebSocket response object. */ async function vlessOverWSHandler(request) { const webSocketPair = new WebSocketPair(); const [client, webSocket] = Object.values(webSocketPair); webSocket.accept(); let address = ''; let portWithRandomLog = ''; let currentDate = new Date(); const log = (/** @type {string} */ info, /** @type {string | undefined} */ event) => { console.log(`[${currentDate} ${address}:${portWithRandomLog}] ${info}`, event || ''); }; const earlyDataHeader = request.headers.get('sec-websocket-protocol') || ''; const readableWebSocketStream = makeReadableWebSocketStream(webSocket, earlyDataHeader, log); /** @type {{ value: import("@cloudflare/workers-types").Socket | null}}*/ let remoteSocketWapper = { value: null, }; let udpStreamWrite = null; let isDns = false; // ws --> remote readableWebSocketStream.pipeTo(new WritableStream({ async write(chunk, controller) { if (isDns && udpStreamWrite) { return udpStreamWrite(chunk); } if (remoteSocketWapper.value) { const writer = remoteSocketWapper.value.writable.getWriter() await writer.write(chunk); writer.releaseLock(); return; } const { hasError, message, portRemote = 443, addressRemote = '', rawDataIndex, vlessVersion = new Uint8Array([0, 0]), isUDP, } = processVlessHeader(chunk, userID); address = addressRemote; portWithRandomLog = `${portRemote} ${isUDP ? 'udp' : 'tcp'} `; if (hasError) { // controller.error(message); throw new Error(message); // cf seems has bug, controller.error will not end stream // webSocket.close(1000, message); return; } // If UDP and not DNS port, close it if (isUDP && portRemote !== 53) { throw new Error('UDP proxy only enabled for DNS which is port 53'); // cf seems has bug, controller.error will not end stream } if (isUDP && portRemote === 53) { isDns = true; } // ["version", "附加信息长度 N"] const vlessResponseHeader = new Uint8Array([vlessVersion[0], 0]); const rawClientData = chunk.slice(rawDataIndex); // TODO: support udp here when cf runtime has udp support if (isDns) { const { write } = await handleUDPOutBound(webSocket, vlessResponseHeader, log); udpStreamWrite = write; udpStreamWrite(rawClientData); return; } handleTCPOutBound(remoteSocketWapper, addressRemote, portRemote, rawClientData, webSocket, vlessResponseHeader, log); }, close() { log(`readableWebSocketStream is close`); }, abort(reason) { log(`readableWebSocketStream is abort`, JSON.stringify(reason)); }, })).catch((err) => { log('readableWebSocketStream pipeTo error', err); }); return new Response(null, { status: 101, webSocket: client, }); } /** * Handles outbound TCP connections. * * @param {any} remoteSocket * @param {string} addressRemote The remote address to connect to. * @param {number} portRemote The remote port to connect to. * @param {Uint8Array} rawClientData The raw client data to write. * @param {import("@cloudflare/workers-types").WebSocket} webSocket The WebSocket to pass the remote socket to. * @param {Uint8Array} vlessResponseHeader The VLESS response header. * @param {function} log The logging function. * @returns {Promise<void>} The remote socket. */ async function handleTCPOutBound(remoteSocket, addressRemote, portRemote, rawClientData, webSocket, vlessResponseHeader, log,) { /** * Connects to a given address and port and writes data to the socket. * @param {string} address The address to connect to. * @param {number} port The port to connect to. * @returns {Promise<import("@cloudflare/workers-types").Socket>} A Promise that resolves to the connected socket. */ async function connectAndWrite(address, port) { /** @type {import("@cloudflare/workers-types").Socket} */ const tcpSocket = connect({ hostname: address, port: port, }); remoteSocket.value = tcpSocket; log(`connected to ${address}:${port}`); const writer = tcpSocket.writable.getWriter(); await writer.write(rawClientData); // first write, nomal is tls client hello writer.releaseLock(); return tcpSocket; } /** * Retries connecting to the remote address and port if the Cloudflare socket has no incoming data. * @returns {Promise<void>} A Promise that resolves when the retry is complete. */ async function retry() { const tcpSocket = await connectAndWrite(proxyIP || addressRemote, portRemote) tcpSocket.closed.catch(error => { console.log('retry tcpSocket closed error', error); }).finally(() => { safeCloseWebSocket(webSocket); }) remoteSocketToWS(tcpSocket, webSocket, vlessResponseHeader, null, log); } const tcpSocket = await connectAndWrite(addressRemote, portRemote); // when remoteSocket is ready, pass to websocket // remote--> ws remoteSocketToWS(tcpSocket, webSocket, vlessResponseHeader, retry, log); } /** * Creates a readable stream from a WebSocket server, allowing for data to be read from the WebSocket. * @param {import("@cloudflare/workers-types").WebSocket} webSocketServer The WebSocket server to create the readable stream from. * @param {string} earlyDataHeader The header containing early data for WebSocket 0-RTT. * @param {(info: string)=> void} log The logging function. * @returns {ReadableStream} A readable stream that can be used to read data from the WebSocket. */ function makeReadableWebSocketStream(webSocketServer, earlyDataHeader, log) { let readableStreamCancel = false; const stream = new ReadableStream({ start(controller) { webSocketServer.addEventListener('message', (event) => { const message = event.data; controller.enqueue(message); }); webSocketServer.addEventListener('close', () => { safeCloseWebSocket(webSocketServer); controller.close(); }); webSocketServer.addEventListener('error', (err) => { log('webSocketServer has error'); controller.error(err); }); const { earlyData, error } = base64ToArrayBuffer(earlyDataHeader); if (error) { controller.error(error); } else if (earlyData) { controller.enqueue(earlyData); } }, pull(controller) { // if ws can stop read if stream is full, we can implement backpressure // https://streams.spec.whatwg.org/#example-rs-push-backpressure }, cancel(reason) { log(`ReadableStream was canceled, due to ${reason}`) readableStreamCancel = true; safeCloseWebSocket(webSocketServer); } }); return stream; } // https://xtls.github.io/development/protocols/vless.html // https://github.com/zizifn/excalidraw-backup/blob/main/v2ray-protocol.excalidraw /** * Processes the VLESS header buffer and returns an object with the relevant information. * @param {ArrayBuffer} vlessBuffer The VLESS header buffer to process. * @param {string} userID The user ID to validate against the UUID in the VLESS header. * @returns {{ * hasError: boolean, * message?: string, * addressRemote?: string, * addressType?: number, * portRemote?: number, * rawDataIndex?: number, * vlessVersion?: Uint8Array, * isUDP?: boolean * }} An object with the relevant information extracted from the VLESS header buffer. */ function processVlessHeader(vlessBuffer, userID) { if (vlessBuffer.byteLength < 24) { return { hasError: true, message: 'invalid data', }; } const version = new Uint8Array(vlessBuffer.slice(0, 1)); let isValidUser = false; let isUDP = false; const slicedBuffer = new Uint8Array(vlessBuffer.slice(1, 17)); const slicedBufferString = stringify(slicedBuffer); // check if userID is valid uuid or uuids split by , and contains userID in it otherwise return error message to console const uuids = userID.includes(',') ? userID.split(",") : [userID]; // uuid_validator(hostName, slicedBufferString); // isValidUser = uuids.some(userUuid => slicedBufferString === userUuid.trim()); isValidUser = uuids.some(userUuid => slicedBufferString === userUuid.trim()) || uuids.length === 1 && slicedBufferString === uuids[0].trim(); console.log(`userID: ${slicedBufferString}`); if (!isValidUser) { return { hasError: true, message: 'invalid user', }; } const optLength = new Uint8Array(vlessBuffer.slice(17, 18))[0]; //skip opt for now const command = new Uint8Array( vlessBuffer.slice(18 + optLength, 18 + optLength + 1) )[0]; // 0x01 TCP // 0x02 UDP // 0x03 MUX if (command === 1) { isUDP = false; } else if (command === 2) { isUDP = true; } else { return { hasError: true, message: `command ${command} is not support, command 01-tcp,02-udp,03-mux`, }; } const portIndex = 18 + optLength + 1; const portBuffer = vlessBuffer.slice(portIndex, portIndex + 2); // port is big-Endian in raw data etc 80 == 0x005d const portRemote = new DataView(portBuffer).getUint16(0); let addressIndex = portIndex + 2; const addressBuffer = new Uint8Array( vlessBuffer.slice(addressIndex, addressIndex + 1) ); // 1--> ipv4 addressLength =4 // 2--> domain name addressLength=addressBuffer[1] // 3--> ipv6 addressLength =16 const addressType = addressBuffer[0]; let addressLength = 0; let addressValueIndex = addressIndex + 1; let addressValue = ''; switch (addressType) { case 1: addressLength = 4; addressValue = new Uint8Array( vlessBuffer.slice(addressValueIndex, addressValueIndex + addressLength) ).join('.'); break; case 2: addressLength = new Uint8Array( vlessBuffer.slice(addressValueIndex, addressValueIndex + 1) )[0]; addressValueIndex += 1; addressValue = new TextDecoder().decode( vlessBuffer.slice(addressValueIndex, addressValueIndex + addressLength) ); break; case 3: addressLength = 16; const dataView = new DataView( vlessBuffer.slice(addressValueIndex, addressValueIndex + addressLength) ); // 2001:0db8:85a3:0000:0000:8a2e:0370:7334 const ipv6 = []; for (let i = 0; i < 8; i++) { ipv6.push(dataView.getUint16(i * 2).toString(16)); } addressValue = ipv6.join(':'); // seems no need add [] for ipv6 break; default: return { hasError: true, message: `invild addressType is ${addressType}`, }; } if (!addressValue) { return { hasError: true, message: `addressValue is empty, addressType is ${addressType}`, }; } return { hasError: false, addressRemote: addressValue, addressType, portRemote, rawDataIndex: addressValueIndex + addressLength, vlessVersion: version, isUDP, }; } /** * Converts a remote socket to a WebSocket connection. * @param {import("@cloudflare/workers-types").Socket} remoteSocket The remote socket to convert. * @param {import("@cloudflare/workers-types").WebSocket} webSocket The WebSocket to connect to. * @param {ArrayBuffer | null} vlessResponseHeader The VLESS response header. * @param {(() => Promise<void>) | null} retry The function to retry the connection if it fails. * @param {(info: string) => void} log The logging function. * @returns {Promise<void>} A Promise that resolves when the conversion is complete. */ async function remoteSocketToWS(remoteSocket, webSocket, vlessResponseHeader, retry, log) { // remote--> ws let remoteChunkCount = 0; let chunks = []; /** @type {ArrayBuffer | null} */ let vlessHeader = vlessResponseHeader; let hasIncomingData = false; // check if remoteSocket has incoming data await remoteSocket.readable .pipeTo( new WritableStream({ start() { }, /** * * @param {Uint8Array} chunk * @param {*} controller */ async write(chunk, controller) { hasIncomingData = true; remoteChunkCount++; if (webSocket.readyState !== WS_READY_STATE_OPEN) { controller.error( 'webSocket.readyState is not open, maybe close' ); } if (vlessHeader) { webSocket.send(await new Blob([vlessHeader, chunk]).arrayBuffer()); vlessHeader = null; } else { // console.log(`remoteSocketToWS send chunk ${chunk.byteLength}`); // seems no need rate limit this, CF seems fix this??.. // if (remoteChunkCount > 20000) { // // cf one package is 4096 byte(4kb), 4096 * 20000 = 80M // await delay(1); // } webSocket.send(chunk); } }, close() { log(`remoteConnection!.readable is close with hasIncomingData is ${hasIncomingData}`); // safeCloseWebSocket(webSocket); // no need server close websocket frist for some case will casue HTTP ERR_CONTENT_LENGTH_MISMATCH issue, client will send close event anyway. }, abort(reason) { console.error(`remoteConnection!.readable abort`, reason); }, }) ) .catch((error) => { console.error( `remoteSocketToWS has exception `, error.stack || error ); safeCloseWebSocket(webSocket); }); // seems is cf connect socket have error, // 1. Socket.closed will have error // 2. Socket.readable will be close without any data coming if (hasIncomingData === false && retry) { log(`retry`) retry(); } } /** * Decodes a base64 string into an ArrayBuffer. * @param {string} base64Str The base64 string to decode. * @returns {{earlyData: ArrayBuffer|null, error: Error|null}} An object containing the decoded ArrayBuffer or null if there was an error, and any error that occurred during decoding or null if there was no error. */ function base64ToArrayBuffer(base64Str) { if (!base64Str) { return { earlyData: null, error: null }; } try { // go use modified Base64 for URL rfc4648 which js atob not support base64Str = base64Str.replace(/-/g, '+').replace(/_/g, '/'); const decode = atob(base64Str); const arryBuffer = Uint8Array.from(decode, (c) => c.charCodeAt(0)); return { earlyData: arryBuffer.buffer, error: null }; } catch (error) { return { earlyData: null, error }; } } /** * Checks if a given string is a valid UUID. * Note: This is not a real UUID validation. * @param {string} uuid The string to validate as a UUID. * @returns {boolean} True if the string is a valid UUID, false otherwise. */ function isValidUUID(uuid) { const uuidRegex = /^[0-9a-f]{8}-[0-9a-f]{4}-[4][0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}$/i; return uuidRegex.test(uuid); } const WS_READY_STATE_OPEN = 1; const WS_READY_STATE_CLOSING = 2; /** * Closes a WebSocket connection safely without throwing exceptions. * @param {import("@cloudflare/workers-types").WebSocket} socket The WebSocket connection to close. */ function safeCloseWebSocket(socket) { try { if (socket.readyState === WS_READY_STATE_OPEN || socket.readyState === WS_READY_STATE_CLOSING) { socket.close(); } } catch (error) { console.error('safeCloseWebSocket error', error); } } const byteToHex = []; for (let i = 0; i < 256; ++i) { byteToHex.push((i + 256).toString(16).slice(1)); } function unsafeStringify(arr, offset = 0) { return (byteToHex[arr[offset + 0]] + byteToHex[arr[offset + 1]] + byteToHex[arr[offset + 2]] + byteToHex[arr[offset + 3]] + "-" + byteToHex[arr[offset + 4]] + byteToHex[arr[offset + 5]] + "-" + byteToHex[arr[offset + 6]] + byteToHex[arr[offset + 7]] + "-" + byteToHex[arr[offset + 8]] + byteToHex[arr[offset + 9]] + "-" + byteToHex[arr[offset + 10]] + byteToHex[arr[offset + 11]] + byteToHex[arr[offset + 12]] + byteToHex[arr[offset + 13]] + byteToHex[arr[offset + 14]] + byteToHex[arr[offset + 15]]).toLowerCase(); } function stringify(arr, offset = 0) { const uuid = unsafeStringify(arr, offset); if (!isValidUUID(uuid)) { throw TypeError("Stringified UUID is invalid"); } return uuid; } /** * Handles outbound UDP traffic by transforming the data into DNS queries and sending them over a WebSocket connection. * @param {import("@cloudflare/workers-types").WebSocket} webSocket The WebSocket connection to send the DNS queries over. * @param {ArrayBuffer} vlessResponseHeader The VLESS response header. * @param {(string) => void} log The logging function. * @returns {{write: (chunk: Uint8Array) => void}} An object with a write method that accepts a Uint8Array chunk to write to the transform stream. */ async function handleUDPOutBound(webSocket, vlessResponseHeader, log) { let isVlessHeaderSent = false; const transformStream = new TransformStream({ start(controller) { }, transform(chunk, controller) { // udp message 2 byte is the the length of udp data // TODO: this should have bug, beacsue maybe udp chunk can be in two websocket message for (let index = 0; index < chunk.byteLength;) { const lengthBuffer = chunk.slice(index, index + 2); const udpPakcetLength = new DataView(lengthBuffer).getUint16(0); const udpData = new Uint8Array( chunk.slice(index + 2, index + 2 + udpPakcetLength) ); index = index + 2 + udpPakcetLength; controller.enqueue(udpData); } }, flush(controller) { } }); // only handle dns udp for now transformStream.readable.pipeTo(new WritableStream({ async write(chunk) { const resp = await fetch(dohURL, // dns server url { method: 'POST', headers: { 'content-type': 'application/dns-message', }, body: chunk, }) const dnsQueryResult = await resp.arrayBuffer(); const udpSize = dnsQueryResult.byteLength; // console.log([...new Uint8Array(dnsQueryResult)].map((x) => x.toString(16))); const udpSizeBuffer = new Uint8Array([(udpSize >> 8) & 0xff, udpSize & 0xff]); if (webSocket.readyState === WS_READY_STATE_OPEN) { log(`doh success and dns message length is ${udpSize}`); if (isVlessHeaderSent) { webSocket.send(await new Blob([udpSizeBuffer, dnsQueryResult]).arrayBuffer()); } else { webSocket.send(await new Blob([vlessResponseHeader, udpSizeBuffer, dnsQueryResult]).arrayBuffer()); isVlessHeaderSent = true; } } } })).catch((error) => { log('dns udp has error' + error) }); const writer = transformStream.writable.getWriter(); return { /** * * @param {Uint8Array} chunk */ write(chunk) { writer.write(chunk); } }; } /** * * @param {string} userID - single or comma separated userIDs * @param {string | null} hostName * @returns {string} */ function getVLESSConfig(userID, hostName) { const wvlessws = `vless://${userID}@www.visa.com.sg:8880?encryption=none&security=none&type=ws&host=${hostName}&path=%2F%3Fed%3D2048#${hostName}`; const pvlesswstls = `vless://${userID}@www.visa.com.sg:8443?encryption=none&security=tls&type=ws&host=${hostName}&sni=${hostName}&fp=random&path=%2F%3Fed%3D2048#${hostName}`; if (hostName.includes('pages.dev')) { return ` <p>==========================配置详解==============================</p> <p>################################################################</p> <p>CF-pages-vless+ws+tls节点,分享链接如下:</p> <p>${pvlesswstls}</p> <p>---------------------------------------------------------------</p> <p>注意:如果 ${hostName} 在本地网络打不开(中国移动用户注意)</p> <p>客户端选项的伪装域名(host)必须改为你在CF解析完成的自定义域名</p> <p>---------------------------------------------------------------</p> <p>客户端必要文明参数如下:</p> <p>客户端地址(address):自定义的域名 或者 优选域名 或者 优选IP(反代IP必须与反代端口对应)</p> <p>端口(port):6个https端口可任意选择(443、8443、2053、2083、2087、2096)</p> <p>用户ID(uuid):${userID}</p> <p>传输协议(network):ws 或者 websocket</p> <p>伪装域名(host):${hostName}</p> <p>路径(path):/?ed=2048</p> <p>传输安全(TLS):开启</p> <p>跳过证书验证(allowlnsecure):false</p> <p>################################################################</p> `; } else if (hostName.includes('workers.dev')) { return ` <p>==========================配置详解==============================</p> <p>################################################################</p> <p>一、CF-workers-vless+ws节点,分享链接如下:</p> <p>${wvlessws}</p> <p>---------------------------------------------------------------</p> <p>注意:当前节点无需使用CF解析完成的域名,客户端选项的TLS选项必须关闭</p> <p>---------------------------------------------------------------</p> <p>客户端必要文明参数如下:</p> <p>客户端地址(address):自定义的域名 或者 优选域名 或者 优选IP(反代IP必须与反代端口对应)</p> <p>端口(port):7个http端口可任意选择(80、8080、8880、2052、2082、2086、2095)</p> <p>用户ID(uuid):${userID}</p> <p>传输协议(network):ws 或者 websocket</p> <p>伪装域名(host):${hostName}</p> <p>路径(path):/?ed=2048</p> <p>################################################################</p> <p>################################################################</p> <p>二、CF-workers-vless+ws+tls节点注意:请在浏览器地址栏输入:你设置的自定义域名/你设置的UUID</p> <p>防止小白过多的操作失误,必须设置自定义域名后才能使用Workers方式的TLS模式,否则,建议只使用vless+ws节点即可</p> <p>提示:使用pages方式部署,联通、电信用户大概率可以直接使用TLS模式,无需设置自定义域名</p> <p>################################################################ `; } else { return ` <p>==========================配置详解==============================</p> <p>=====使用自定义域名查看配置,请确认使用的是workers还是pages=====</p> <p>################################################################</p> <p>一、CF-workers-vless+ws节点,分享链接如下:</p> <p>${wvlessws}</p> <p>---------------------------------------------------------------</p> <p>注意:当前节点无需使用CF解析完成的域名,客户端选项的TLS选项必须关闭</p> <p>---------------------------------------------------------------</p> <p>客户端必要文明参数如下:</p> <p>客户端地址(address):自定义的域名 或者 优选域名 或者 优选IP(反代IP必须与反代端口对应)</p> <p>端口(port):7个http端口可任意选择(80、8080、8880、2052、2082、2086、2095)</p> <p>用户ID(uuid):${userID}</p> <p>传输协议(network):ws 或者 websocket</p> <p>伪装域名(host):${hostName}</p> <p>路径(path):/?ed=2048</p> <p>################################################################</p> <p>################################################################</p> <p>二、CF-workers-vless+ws+tls 或者 CF-pages-vless+ws+tls节点,分享链接如下:</p> <p>${pvlesswstls}</p> <p>---------------------------------------------------------------</p> <p>注意:客户端选项的伪装域名(host)必须改为你在CF解析完成的自定义域名</p> <p>---------------------------------------------------------------</p> <p>客户端必要文明参数如下:</p> <p>客户端地址(address):自定义的域名 或者 优选域名 或者 优选IP(反代IP必须与反代端口对应)</p> <p>端口(port):6个https端口可任意选择(443、8443、2053、2083、2087、2096)</p> <p>用户ID(uuid):${userID}</p> <p>传输协议(network):ws 或者 websocket</p> <p>伪装域名(host):${hostName}</p> <p>路径(path):/?ed=2048</p> <p>传输安全(TLS):开启</p> <p>跳过证书验证(allowlnsecure):false</p> <p>################################################################</p> `; } } const cn_hostnames = [ 'www.wto.org' ]; |
