Skip to main content
Glama

SSH MCP Server

by mfangtao
npmGitHub
JavaScript
18
2
OverviewInspectNewEndpointsSchemaRelated ServersReviewsScore
Need Help?View Source CodeReport Issue
client.js63.4 kB
// TODO: // * add `.connected` or similar property to allow immediate connection // status checking // * add/improve debug output during user authentication phase 'use strict'; const { createHash, getHashes, randomFillSync, } = require('crypto'); const { Socket } = require('net'); const { lookup: dnsLookup } = require('dns'); const EventEmitter = require('events'); const HASHES = getHashes(); const { COMPAT, CHANNEL_EXTENDED_DATATYPE: { STDERR }, CHANNEL_OPEN_FAILURE, DEFAULT_CIPHER, DEFAULT_COMPRESSION, DEFAULT_KEX, DEFAULT_MAC, DEFAULT_SERVER_HOST_KEY, DISCONNECT_REASON, DISCONNECT_REASON_BY_VALUE, SUPPORTED_CIPHER, SUPPORTED_COMPRESSION, SUPPORTED_KEX, SUPPORTED_MAC, SUPPORTED_SERVER_HOST_KEY, } = require('./protocol/constants.js'); const { init: cryptoInit } = require('./protocol/crypto.js'); const Protocol = require('./protocol/Protocol.js'); const { parseKey } = require('./protocol/keyParser.js'); const { SFTP } = require('./protocol/SFTP.js'); const { bufferCopy, makeBufferParser, makeError, readUInt32BE, sigSSHToASN1, writeUInt32BE, } = require('./protocol/utils.js'); const { AgentContext, createAgent, isAgent } = require('./agent.js'); const { Channel, MAX_WINDOW, PACKET_SIZE, windowAdjust, WINDOW_THRESHOLD, } = require('./Channel.js'); const { ChannelManager, generateAlgorithmList, isWritable, onChannelOpenFailure, onCHANNEL_CLOSE, } = require('./utils.js'); const bufferParser = makeBufferParser(); const sigParser = makeBufferParser(); const RE_OPENSSH = /^OpenSSH_(?:(?![0-4])\d)|(?:\d{2,})/; const noop = (err) => {}; class Client extends EventEmitter { constructor() { super(); this.config = { host: undefined, port: undefined, localAddress: undefined, localPort: undefined, forceIPv4: undefined, forceIPv6: undefined, keepaliveCountMax: undefined, keepaliveInterval: undefined, readyTimeout: undefined, ident: undefined, username: undefined, password: undefined, privateKey: undefined, tryKeyboard: undefined, agent: undefined, allowAgentFwd: undefined, authHandler: undefined, hostHashAlgo: undefined, hostHashCb: undefined, strictVendor: undefined, debug: undefined }; this._agent = undefined; this._readyTimeout = undefined; this._chanMgr = undefined; this._callbacks = undefined; this._forwarding = undefined; this._forwardingUnix = undefined; this._acceptX11 = undefined; this._agentFwdEnabled = undefined; this._remoteVer = undefined; this._protocol = undefined; this._sock = undefined; this._resetKA = undefined; } connect(cfg) { if (this._sock && isWritable(this._sock)) { this.once('close', () => { this.connect(cfg); }); this.end(); return this; } this.config.host = cfg.hostname || cfg.host || 'localhost'; this.config.port = cfg.port || 22; this.config.localAddress = (typeof cfg.localAddress === 'string' ? cfg.localAddress : undefined); this.config.localPort = (typeof cfg.localPort === 'string' || typeof cfg.localPort === 'number' ? cfg.localPort : undefined); this.config.forceIPv4 = cfg.forceIPv4 || false; this.config.forceIPv6 = cfg.forceIPv6 || false; this.config.keepaliveCountMax = (typeof cfg.keepaliveCountMax === 'number' && cfg.keepaliveCountMax >= 0 ? cfg.keepaliveCountMax : 3); this.config.keepaliveInterval = (typeof cfg.keepaliveInterval === 'number' && cfg.keepaliveInterval > 0 ? cfg.keepaliveInterval : 0); this.config.readyTimeout = (typeof cfg.readyTimeout === 'number' && cfg.readyTimeout >= 0 ? cfg.readyTimeout : 20000); this.config.ident = (typeof cfg.ident === 'string' || Buffer.isBuffer(cfg.ident) ? cfg.ident : undefined); const algorithms = { kex: undefined, serverHostKey: undefined, cs: { cipher: undefined, mac: undefined, compress: undefined, lang: [], }, sc: undefined, }; let allOfferDefaults = true; if (typeof cfg.algorithms === 'object' && cfg.algorithms !== null) { algorithms.kex = generateAlgorithmList(cfg.algorithms.kex, DEFAULT_KEX, SUPPORTED_KEX); if (algorithms.kex !== DEFAULT_KEX) allOfferDefaults = false; algorithms.serverHostKey = generateAlgorithmList(cfg.algorithms.serverHostKey, DEFAULT_SERVER_HOST_KEY, SUPPORTED_SERVER_HOST_KEY); if (algorithms.serverHostKey !== DEFAULT_SERVER_HOST_KEY) allOfferDefaults = false; algorithms.cs.cipher = generateAlgorithmList(cfg.algorithms.cipher, DEFAULT_CIPHER, SUPPORTED_CIPHER); if (algorithms.cs.cipher !== DEFAULT_CIPHER) allOfferDefaults = false; algorithms.cs.mac = generateAlgorithmList(cfg.algorithms.hmac, DEFAULT_MAC, SUPPORTED_MAC); if (algorithms.cs.mac !== DEFAULT_MAC) allOfferDefaults = false; algorithms.cs.compress = generateAlgorithmList(cfg.algorithms.compress, DEFAULT_COMPRESSION, SUPPORTED_COMPRESSION); if (algorithms.cs.compress !== DEFAULT_COMPRESSION) allOfferDefaults = false; if (!allOfferDefaults) algorithms.sc = algorithms.cs; } if (typeof cfg.username === 'string') this.config.username = cfg.username; else if (typeof cfg.user === 'string') this.config.username = cfg.user; else throw new Error('Invalid username'); this.config.password = (typeof cfg.password === 'string' ? cfg.password : undefined); this.config.privateKey = (typeof cfg.privateKey === 'string' || Buffer.isBuffer(cfg.privateKey) ? cfg.privateKey : undefined); this.config.localHostname = (typeof cfg.localHostname === 'string' ? cfg.localHostname : undefined); this.config.localUsername = (typeof cfg.localUsername === 'string' ? cfg.localUsername : undefined); this.config.tryKeyboard = (cfg.tryKeyboard === true); if (typeof cfg.agent === 'string' && cfg.agent.length) this.config.agent = createAgent(cfg.agent); else if (isAgent(cfg.agent)) this.config.agent = cfg.agent; else this.config.agent = undefined; this.config.allowAgentFwd = (cfg.agentForward === true && this.config.agent !== undefined); let authHandler = this.config.authHandler = ( typeof cfg.authHandler === 'function' || Array.isArray(cfg.authHandler) ? cfg.authHandler : undefined ); this.config.strictVendor = (typeof cfg.strictVendor === 'boolean' ? cfg.strictVendor : true); const debug = this.config.debug = (typeof cfg.debug === 'function' ? cfg.debug : undefined); if (cfg.agentForward === true && !this.config.allowAgentFwd) { throw new Error( 'You must set a valid agent path to allow agent forwarding' ); } let callbacks = this._callbacks = []; this._chanMgr = new ChannelManager(this); this._forwarding = {}; this._forwardingUnix = {}; this._acceptX11 = 0; this._agentFwdEnabled = false; this._agent = (this.config.agent ? this.config.agent : undefined); this._remoteVer = undefined; let privateKey; if (this.config.privateKey) { privateKey = parseKey(this.config.privateKey, cfg.passphrase); if (privateKey instanceof Error) throw new Error(`Cannot parse privateKey: ${privateKey.message}`); if (Array.isArray(privateKey)) { // OpenSSH's newer format only stores 1 key for now privateKey = privateKey[0]; } if (privateKey.getPrivatePEM() === null) { throw new Error( 'privateKey value does not contain a (valid) private key' ); } } let hostVerifier; if (typeof cfg.hostVerifier === 'function') { const hashCb = cfg.hostVerifier; let hashAlgo; if (HASHES.indexOf(cfg.hostHash) !== -1) { // Default to old behavior of hashing on user's behalf hashAlgo = cfg.hostHash; } hostVerifier = (key, verify) => { if (hashAlgo) key = createHash(hashAlgo).update(key).digest('hex'); const ret = hashCb(key, verify); if (ret !== undefined) verify(ret); }; } const sock = this._sock = (cfg.sock || new Socket()); let ready = false; let sawHeader = false; if (this._protocol) this._protocol.cleanup(); const DEBUG_HANDLER = (!debug ? undefined : (p, display, msg) => { debug(`Debug output from server: ${JSON.stringify(msg)}`); }); let serverSigAlgs; const proto = this._protocol = new Protocol({ ident: this.config.ident, offer: (allOfferDefaults ? undefined : algorithms), onWrite: (data) => { if (isWritable(sock)) sock.write(data); }, onError: (err) => { if (err.level === 'handshake') clearTimeout(this._readyTimeout); if (!proto._destruct) sock.removeAllListeners('data'); this.emit('error', err); try { sock.end(); } catch {} }, onHeader: (header) => { sawHeader = true; this._remoteVer = header.versions.software; if (header.greeting) this.emit('greeting', header.greeting); }, onHandshakeComplete: (negotiated) => { this.emit('handshake', negotiated); if (!ready) { ready = true; proto.service('ssh-userauth'); } }, debug, hostVerifier, messageHandlers: { DEBUG: DEBUG_HANDLER, DISCONNECT: (p, reason, desc) => { if (reason !== DISCONNECT_REASON.BY_APPLICATION) { if (!desc) { desc = DISCONNECT_REASON_BY_VALUE[reason]; if (desc === undefined) desc = `Unexpected disconnection reason: ${reason}`; } const err = new Error(desc); err.code = reason; this.emit('error', err); } sock.end(); }, SERVICE_ACCEPT: (p, name) => { if (name === 'ssh-userauth') tryNextAuth(); }, EXT_INFO: (p, exts) => { if (serverSigAlgs === undefined) { for (const ext of exts) { if (ext.name === 'server-sig-algs') { serverSigAlgs = ext.algs; return; } } serverSigAlgs = null; } }, USERAUTH_BANNER: (p, msg) => { this.emit('banner', msg); }, USERAUTH_SUCCESS: (p) => { // Start keepalive mechanism resetKA(); clearTimeout(this._readyTimeout); this.emit('ready'); }, USERAUTH_FAILURE: (p, authMethods, partialSuccess) => { // For key-based authentication, check if we should retry the current // key with a different algorithm first if (curAuth.keyAlgos) { const oldKeyAlgo = curAuth.keyAlgos[0][0]; if (debug) debug(`Client: ${curAuth.type} (${oldKeyAlgo}) auth failed`); curAuth.keyAlgos.shift(); if (curAuth.keyAlgos.length) { const [keyAlgo, hashAlgo] = curAuth.keyAlgos[0]; switch (curAuth.type) { case 'agent': proto.authPK( curAuth.username, curAuth.agentCtx.currentKey(), keyAlgo ); return; case 'publickey': proto.authPK(curAuth.username, curAuth.key, keyAlgo); return; case 'hostbased': proto.authHostbased(curAuth.username, curAuth.key, curAuth.localHostname, curAuth.localUsername, keyAlgo, (buf, cb) => { const signature = curAuth.key.sign(buf, hashAlgo); if (signature instanceof Error) { signature.message = `Error while signing with key: ${signature.message}`; signature.level = 'client-authentication'; this.emit('error', signature); return tryNextAuth(); } cb(signature); }); return; } } else { curAuth.keyAlgos = undefined; } } if (curAuth.type === 'agent') { const pos = curAuth.agentCtx.pos(); debug && debug(`Client: Agent key #${pos + 1} failed`); return tryNextAgentKey(); } debug && debug(`Client: ${curAuth.type} auth failed`); curPartial = partialSuccess; curAuthsLeft = authMethods; tryNextAuth(); }, USERAUTH_PASSWD_CHANGEREQ: (p, prompt) => { if (curAuth.type === 'password') { // TODO: support a `changePrompt()` on `curAuth` that defaults to // emitting 'change password' as before this.emit('change password', prompt, (newPassword) => { proto.authPassword( this.config.username, this.config.password, newPassword ); }); } }, USERAUTH_PK_OK: (p) => { let keyAlgo; let hashAlgo; if (curAuth.keyAlgos) [keyAlgo, hashAlgo] = curAuth.keyAlgos[0]; if (curAuth.type === 'agent') { const key = curAuth.agentCtx.currentKey(); proto.authPK(curAuth.username, key, keyAlgo, (buf, cb) => { const opts = { hash: hashAlgo }; curAuth.agentCtx.sign(key, buf, opts, (err, signed) => { if (err) { err.level = 'agent'; this.emit('error', err); } else { return cb(signed); } tryNextAgentKey(); }); }); } else if (curAuth.type === 'publickey') { proto.authPK(curAuth.username, curAuth.key, keyAlgo, (buf, cb) => { const signature = curAuth.key.sign(buf, hashAlgo); if (signature instanceof Error) { signature.message = `Error signing data with key: ${signature.message}`; signature.level = 'client-authentication'; this.emit('error', signature); return tryNextAuth(); } cb(signature); }); } }, USERAUTH_INFO_REQUEST: (p, name, instructions, prompts) => { if (curAuth.type === 'keyboard-interactive') { const nprompts = (Array.isArray(prompts) ? prompts.length : 0); if (nprompts === 0) { debug && debug( 'Client: Sending automatic USERAUTH_INFO_RESPONSE' ); proto.authInfoRes(); return; } // We sent a keyboard-interactive user authentication request and // now the server is sending us the prompts we need to present to // the user curAuth.prompt( name, instructions, '', prompts, (answers) => { proto.authInfoRes(answers); } ); } }, REQUEST_SUCCESS: (p, data) => { if (callbacks.length) callbacks.shift()(false, data); }, REQUEST_FAILURE: (p) => { if (callbacks.length) callbacks.shift()(true); }, GLOBAL_REQUEST: (p, name, wantReply, data) => { switch (name) { case 'hostkeys-00@openssh.com': // Automatically verify keys before passing to end user hostKeysProve(this, data, (err, keys) => { if (err) return; this.emit('hostkeys', keys); }); if (wantReply) proto.requestSuccess(); break; default: // Auto-reject all other global requests, this can be especially // useful if the server is sending us dummy keepalive global // requests if (wantReply) proto.requestFailure(); } }, CHANNEL_OPEN: (p, info) => { // Handle incoming requests from server, typically a forwarded TCP or // X11 connection onCHANNEL_OPEN(this, info); }, CHANNEL_OPEN_CONFIRMATION: (p, info) => { const channel = this._chanMgr.get(info.recipient); if (typeof channel !== 'function') return; const isSFTP = (channel.type === 'sftp'); const type = (isSFTP ? 'session' : channel.type); const chanInfo = { type, incoming: { id: info.recipient, window: MAX_WINDOW, packetSize: PACKET_SIZE, state: 'open' }, outgoing: { id: info.sender, window: info.window, packetSize: info.packetSize, state: 'open' } }; const instance = ( isSFTP ? new SFTP(this, chanInfo, { debug }) : new Channel(this, chanInfo) ); this._chanMgr.update(info.recipient, instance); channel(undefined, instance); }, CHANNEL_OPEN_FAILURE: (p, recipient, reason, description) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'function') return; const info = { reason, description }; onChannelOpenFailure(this, recipient, info, channel); }, CHANNEL_DATA: (p, recipient, data) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; // The remote party should not be sending us data if there is no // window space available ... // TODO: raise error on data with not enough window? if (channel.incoming.window === 0) return; channel.incoming.window -= data.length; if (channel.push(data) === false) { channel._waitChanDrain = true; return; } if (channel.incoming.window <= WINDOW_THRESHOLD) windowAdjust(channel); }, CHANNEL_EXTENDED_DATA: (p, recipient, data, type) => { if (type !== STDERR) return; const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; // The remote party should not be sending us data if there is no // window space available ... // TODO: raise error on data with not enough window? if (channel.incoming.window === 0) return; channel.incoming.window -= data.length; if (!channel.stderr.push(data)) { channel._waitChanDrain = true; return; } if (channel.incoming.window <= WINDOW_THRESHOLD) windowAdjust(channel); }, CHANNEL_WINDOW_ADJUST: (p, recipient, amount) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; // The other side is allowing us to send `amount` more bytes of data channel.outgoing.window += amount; if (channel._waitWindow) { channel._waitWindow = false; if (channel._chunk) { channel._write(channel._chunk, null, channel._chunkcb); } else if (channel._chunkcb) { channel._chunkcb(); } else if (channel._chunkErr) { channel.stderr._write(channel._chunkErr, null, channel._chunkcbErr); } else if (channel._chunkcbErr) { channel._chunkcbErr(); } } }, CHANNEL_SUCCESS: (p, recipient) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; this._resetKA(); if (channel._callbacks.length) channel._callbacks.shift()(false); }, CHANNEL_FAILURE: (p, recipient) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; this._resetKA(); if (channel._callbacks.length) channel._callbacks.shift()(true); }, CHANNEL_REQUEST: (p, recipient, type, wantReply, data) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; const exit = channel._exit; if (exit.code !== undefined) return; switch (type) { case 'exit-status': channel.emit('exit', exit.code = data); return; case 'exit-signal': channel.emit('exit', exit.code = null, exit.signal = `SIG${data.signal}`, exit.dump = data.coreDumped, exit.desc = data.errorMessage); return; } // Keepalive request? OpenSSH will send one as a channel request if // there is a channel open if (wantReply) p.channelFailure(channel.outgoing.id); }, CHANNEL_EOF: (p, recipient) => { const channel = this._chanMgr.get(recipient); if (typeof channel !== 'object' || channel === null) return; if (channel.incoming.state !== 'open') return; channel.incoming.state = 'eof'; if (channel.readable) channel.push(null); if (channel.stderr.readable) channel.stderr.push(null); }, CHANNEL_CLOSE: (p, recipient) => { onCHANNEL_CLOSE(this, recipient, this._chanMgr.get(recipient)); }, }, }); sock.pause(); // TODO: check keepalive implementation // Keepalive-related const kainterval = this.config.keepaliveInterval; const kacountmax = this.config.keepaliveCountMax; let kacount = 0; let katimer; const sendKA = () => { if (++kacount > kacountmax) { clearInterval(katimer); if (sock.readable) { const err = new Error('Keepalive timeout'); err.level = 'client-timeout'; this.emit('error', err); sock.destroy(); } return; } if (isWritable(sock)) { // Append dummy callback to keep correct callback order callbacks.push(resetKA); proto.ping(); } else { clearInterval(katimer); } }; function resetKA() { if (kainterval > 0) { kacount = 0; clearInterval(katimer); if (isWritable(sock)) katimer = setInterval(sendKA, kainterval); } } this._resetKA = resetKA; const onDone = (() => { let called = false; return () => { if (called) return; called = true; if (wasConnected && !sawHeader) { const err = makeError('Connection lost before handshake', 'protocol', true); this.emit('error', err); } }; })(); const onConnect = (() => { let called = false; return () => { if (called) return; called = true; wasConnected = true; debug && debug('Socket connected'); this.emit('connect'); cryptoInit.then(() => { proto.start(); sock.on('data', (data) => { try { proto.parse(data, 0, data.length); } catch (ex) { this.emit('error', ex); try { if (isWritable(sock)) sock.end(); } catch {} } }); // Drain stderr if we are connection hopping using an exec stream if (sock.stderr && typeof sock.stderr.resume === 'function') sock.stderr.resume(); sock.resume(); }).catch((err) => { this.emit('error', err); try { if (isWritable(sock)) sock.end(); } catch {} }); }; })(); let wasConnected = false; sock.on('connect', onConnect) .on('timeout', () => { this.emit('timeout'); }).on('error', (err) => { debug && debug(`Socket error: ${err.message}`); clearTimeout(this._readyTimeout); err.level = 'client-socket'; this.emit('error', err); }).on('end', () => { debug && debug('Socket ended'); onDone(); proto.cleanup(); clearTimeout(this._readyTimeout); clearInterval(katimer); this.emit('end'); }).on('close', () => { debug && debug('Socket closed'); onDone(); proto.cleanup(); clearTimeout(this._readyTimeout); clearInterval(katimer); this.emit('close'); // Notify outstanding channel requests of disconnection ... const callbacks_ = callbacks; callbacks = this._callbacks = []; const err = new Error('No response from server'); for (let i = 0; i < callbacks_.length; ++i) callbacks_[i](err); // Simulate error for any channels waiting to be opened this._chanMgr.cleanup(err); }); // Begin authentication handling =========================================== let curAuth; let curPartial = null; let curAuthsLeft = null; const authsAllowed = ['none']; if (this.config.password !== undefined) authsAllowed.push('password'); if (privateKey !== undefined) authsAllowed.push('publickey'); if (this._agent !== undefined) authsAllowed.push('agent'); if (this.config.tryKeyboard) authsAllowed.push('keyboard-interactive'); if (privateKey !== undefined && this.config.localHostname !== undefined && this.config.localUsername !== undefined) { authsAllowed.push('hostbased'); } if (Array.isArray(authHandler)) authHandler = makeSimpleAuthHandler(authHandler); else if (typeof authHandler !== 'function') authHandler = makeSimpleAuthHandler(authsAllowed); let hasSentAuth = false; const doNextAuth = (nextAuth) => { if (hasSentAuth) return; hasSentAuth = true; if (nextAuth === false) { const err = new Error('All configured authentication methods failed'); err.level = 'client-authentication'; this.emit('error', err); this.end(); return; } if (typeof nextAuth === 'string') { // Remain backwards compatible with original `authHandler()` usage, // which only supported passing names of next method to try using data // from the `connect()` config object const type = nextAuth; if (authsAllowed.indexOf(type) === -1) return skipAuth(`Authentication method not allowed: ${type}`); const username = this.config.username; switch (type) { case 'password': nextAuth = { type, username, password: this.config.password }; break; case 'publickey': nextAuth = { type, username, key: privateKey }; break; case 'hostbased': nextAuth = { type, username, key: privateKey, localHostname: this.config.localHostname, localUsername: this.config.localUsername, }; break; case 'agent': nextAuth = { type, username, agentCtx: new AgentContext(this._agent), }; break; case 'keyboard-interactive': nextAuth = { type, username, prompt: (...args) => this.emit('keyboard-interactive', ...args), }; break; case 'none': nextAuth = { type, username }; break; default: return skipAuth( `Skipping unsupported authentication method: ${nextAuth}` ); } } else if (typeof nextAuth !== 'object' || nextAuth === null) { return skipAuth( `Skipping invalid authentication attempt: ${nextAuth}` ); } else { const username = nextAuth.username; if (typeof username !== 'string') { return skipAuth( `Skipping invalid authentication attempt: ${nextAuth}` ); } const type = nextAuth.type; switch (type) { case 'password': { const { password } = nextAuth; if (typeof password !== 'string' && !Buffer.isBuffer(password)) return skipAuth('Skipping invalid password auth attempt'); nextAuth = { type, username, password }; break; } case 'publickey': { const key = parseKey(nextAuth.key, nextAuth.passphrase); if (key instanceof Error) return skipAuth('Skipping invalid key auth attempt'); if (!key.isPrivateKey()) return skipAuth('Skipping non-private key'); nextAuth = { type, username, key }; break; } case 'hostbased': { const { localHostname, localUsername } = nextAuth; const key = parseKey(nextAuth.key, nextAuth.passphrase); if (key instanceof Error || typeof localHostname !== 'string' || typeof localUsername !== 'string') { return skipAuth('Skipping invalid hostbased auth attempt'); } if (!key.isPrivateKey()) return skipAuth('Skipping non-private key'); nextAuth = { type, username, key, localHostname, localUsername }; break; } case 'agent': { let agent = nextAuth.agent; if (typeof agent === 'string' && agent.length) { agent = createAgent(agent); } else if (!isAgent(agent)) { return skipAuth( `Skipping invalid agent: ${nextAuth.agent}` ); } nextAuth = { type, username, agentCtx: new AgentContext(agent) }; break; } case 'keyboard-interactive': { const { prompt } = nextAuth; if (typeof prompt !== 'function') { return skipAuth( 'Skipping invalid keyboard-interactive auth attempt' ); } nextAuth = { type, username, prompt }; break; } case 'none': nextAuth = { type, username }; break; default: return skipAuth( `Skipping unsupported authentication method: ${nextAuth}` ); } } curAuth = nextAuth; // Begin authentication method's process try { const username = curAuth.username; switch (curAuth.type) { case 'password': proto.authPassword(username, curAuth.password); break; case 'publickey': { let keyAlgo; curAuth.keyAlgos = getKeyAlgos(this, curAuth.key, serverSigAlgs); if (curAuth.keyAlgos) { if (curAuth.keyAlgos.length) { keyAlgo = curAuth.keyAlgos[0][0]; } else { return skipAuth( 'Skipping key authentication (no mutual hash algorithm)' ); } } proto.authPK(username, curAuth.key, keyAlgo); break; } case 'hostbased': { let keyAlgo; let hashAlgo; curAuth.keyAlgos = getKeyAlgos(this, curAuth.key, serverSigAlgs); if (curAuth.keyAlgos) { if (curAuth.keyAlgos.length) { [keyAlgo, hashAlgo] = curAuth.keyAlgos[0]; } else { return skipAuth( 'Skipping hostbased authentication (no mutual hash algorithm)' ); } } proto.authHostbased(username, curAuth.key, curAuth.localHostname, curAuth.localUsername, keyAlgo, (buf, cb) => { const signature = curAuth.key.sign(buf, hashAlgo); if (signature instanceof Error) { signature.message = `Error while signing with key: ${signature.message}`; signature.level = 'client-authentication'; this.emit('error', signature); return tryNextAuth(); } cb(signature); }); break; } case 'agent': curAuth.agentCtx.init((err) => { if (err) { err.level = 'agent'; this.emit('error', err); return tryNextAuth(); } tryNextAgentKey(); }); break; case 'keyboard-interactive': proto.authKeyboard(username); break; case 'none': proto.authNone(username); break; } } finally { hasSentAuth = false; } }; function skipAuth(msg) { debug && debug(msg); process.nextTick(tryNextAuth); } function tryNextAuth() { hasSentAuth = false; const auth = authHandler(curAuthsLeft, curPartial, doNextAuth); if (hasSentAuth || auth === undefined) return; doNextAuth(auth); } const tryNextAgentKey = () => { if (curAuth.type === 'agent') { const key = curAuth.agentCtx.nextKey(); if (key === false) { debug && debug('Agent: No more keys left to try'); debug && debug('Client: agent auth failed'); tryNextAuth(); } else { const pos = curAuth.agentCtx.pos(); let keyAlgo; curAuth.keyAlgos = getKeyAlgos(this, key, serverSigAlgs); if (curAuth.keyAlgos) { if (curAuth.keyAlgos.length) { keyAlgo = curAuth.keyAlgos[0][0]; } else { debug && debug( `Agent: Skipping key #${pos + 1} (no mutual hash algorithm)` ); tryNextAgentKey(); return; } } debug && debug(`Agent: Trying key #${pos + 1}`); proto.authPK(curAuth.username, key, keyAlgo); } } }; const startTimeout = () => { if (this.config.readyTimeout > 0) { this._readyTimeout = setTimeout(() => { const err = new Error('Timed out while waiting for handshake'); err.level = 'client-timeout'; this.emit('error', err); sock.destroy(); }, this.config.readyTimeout); } }; if (!cfg.sock) { let host = this.config.host; const forceIPv4 = this.config.forceIPv4; const forceIPv6 = this.config.forceIPv6; debug && debug(`Client: Trying ${host} on port ${this.config.port} ...`); const doConnect = () => { startTimeout(); sock.connect({ host, port: this.config.port, localAddress: this.config.localAddress, localPort: this.config.localPort }); sock.setMaxListeners(0); sock.setTimeout(typeof cfg.timeout === 'number' ? cfg.timeout : 0); }; if ((!forceIPv4 && !forceIPv6) || (forceIPv4 && forceIPv6)) { doConnect(); } else { dnsLookup(host, (forceIPv4 ? 4 : 6), (err, address, family) => { if (err) { const type = (forceIPv4 ? 'IPv4' : 'IPv6'); const error = new Error( `Error while looking up ${type} address for '${host}': ${err}` ); clearTimeout(this._readyTimeout); error.level = 'client-dns'; this.emit('error', error); this.emit('close'); return; } host = address; doConnect(); }); } } else { // Custom socket passed in startTimeout(); if (typeof sock.connecting === 'boolean') { // net.Socket if (!sock.connecting) { // Already connected onConnect(); } } else { // Assume socket/stream is already "connected" onConnect(); } } return this; } end() { if (this._sock && isWritable(this._sock)) { this._protocol.disconnect(DISCONNECT_REASON.BY_APPLICATION); this._sock.end(); } return this; } destroy() { this._sock && isWritable(this._sock) && this._sock.destroy(); return this; } exec(cmd, opts, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); if (typeof opts === 'function') { cb = opts; opts = {}; } const extraOpts = { allowHalfOpen: (opts.allowHalfOpen !== false) }; openChannel(this, 'session', extraOpts, (err, chan) => { if (err) { cb(err); return; } const todo = []; function reqCb(err) { if (err) { chan.close(); cb(err); return; } if (todo.length) todo.shift()(); } if (this.config.allowAgentFwd === true || (opts && opts.agentForward === true && this._agent !== undefined)) { todo.push(() => reqAgentFwd(chan, reqCb)); } if (typeof opts === 'object' && opts !== null) { if (typeof opts.env === 'object' && opts.env !== null) reqEnv(chan, opts.env); if ((typeof opts.pty === 'object' && opts.pty !== null) || opts.pty === true) { todo.push(() => reqPty(chan, opts.pty, reqCb)); } if ((typeof opts.x11 === 'object' && opts.x11 !== null) || opts.x11 === 'number' || opts.x11 === true) { todo.push(() => reqX11(chan, opts.x11, reqCb)); } } todo.push(() => reqExec(chan, cmd, opts, cb)); todo.shift()(); }); return this; } shell(wndopts, opts, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); if (typeof wndopts === 'function') { cb = wndopts; wndopts = opts = undefined; } else if (typeof opts === 'function') { cb = opts; opts = undefined; } if (wndopts && (wndopts.x11 !== undefined || wndopts.env !== undefined)) { opts = wndopts; wndopts = undefined; } openChannel(this, 'session', (err, chan) => { if (err) { cb(err); return; } const todo = []; function reqCb(err) { if (err) { chan.close(); cb(err); return; } if (todo.length) todo.shift()(); } if (this.config.allowAgentFwd === true || (opts && opts.agentForward === true && this._agent !== undefined)) { todo.push(() => reqAgentFwd(chan, reqCb)); } if (wndopts !== false) todo.push(() => reqPty(chan, wndopts, reqCb)); if (typeof opts === 'object' && opts !== null) { if (typeof opts.env === 'object' && opts.env !== null) reqEnv(chan, opts.env); if ((typeof opts.x11 === 'object' && opts.x11 !== null) || opts.x11 === 'number' || opts.x11 === true) { todo.push(() => reqX11(chan, opts.x11, reqCb)); } } todo.push(() => reqShell(chan, cb)); todo.shift()(); }); return this; } subsys(name, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); openChannel(this, 'session', (err, chan) => { if (err) { cb(err); return; } reqSubsystem(chan, name, (err, stream) => { if (err) { cb(err); return; } cb(undefined, stream); }); }); return this; } forwardIn(bindAddr, bindPort, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); // Send a request for the server to start forwarding TCP connections to us // on a particular address and port const wantReply = (typeof cb === 'function'); if (wantReply) { this._callbacks.push((had_err, data) => { if (had_err) { cb(had_err !== true ? had_err : new Error(`Unable to bind to ${bindAddr}:${bindPort}`)); return; } let realPort = bindPort; if (bindPort === 0 && data && data.length >= 4) { realPort = readUInt32BE(data, 0); if (!(this._protocol._compatFlags & COMPAT.DYN_RPORT_BUG)) bindPort = realPort; } this._forwarding[`${bindAddr}:${bindPort}`] = realPort; cb(undefined, realPort); }); } this._protocol.tcpipForward(bindAddr, bindPort, wantReply); return this; } unforwardIn(bindAddr, bindPort, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); // Send a request to stop forwarding us new connections for a particular // address and port const wantReply = (typeof cb === 'function'); if (wantReply) { this._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error(`Unable to unbind from ${bindAddr}:${bindPort}`)); return; } delete this._forwarding[`${bindAddr}:${bindPort}`]; cb(); }); } this._protocol.cancelTcpipForward(bindAddr, bindPort, wantReply); return this; } forwardOut(srcIP, srcPort, dstIP, dstPort, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); // Send a request to forward a TCP connection to the server const cfg = { srcIP: srcIP, srcPort: srcPort, dstIP: dstIP, dstPort: dstPort }; if (typeof cb !== 'function') cb = noop; openChannel(this, 'direct-tcpip', cfg, cb); return this; } openssh_noMoreSessions(cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); const wantReply = (typeof cb === 'function'); if (!this.config.strictVendor || (this.config.strictVendor && RE_OPENSSH.test(this._remoteVer))) { if (wantReply) { this._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Unable to disable future sessions')); return; } cb(); }); } this._protocol.openssh_noMoreSessions(wantReply); return this; } if (!wantReply) return this; process.nextTick( cb, new Error( 'strictVendor enabled and server is not OpenSSH or compatible version' ) ); return this; } openssh_forwardInStreamLocal(socketPath, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); const wantReply = (typeof cb === 'function'); if (!this.config.strictVendor || (this.config.strictVendor && RE_OPENSSH.test(this._remoteVer))) { if (wantReply) { this._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error(`Unable to bind to ${socketPath}`)); return; } this._forwardingUnix[socketPath] = true; cb(); }); } this._protocol.openssh_streamLocalForward(socketPath, wantReply); return this; } if (!wantReply) return this; process.nextTick( cb, new Error( 'strictVendor enabled and server is not OpenSSH or compatible version' ) ); return this; } openssh_unforwardInStreamLocal(socketPath, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); const wantReply = (typeof cb === 'function'); if (!this.config.strictVendor || (this.config.strictVendor && RE_OPENSSH.test(this._remoteVer))) { if (wantReply) { this._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error(`Unable to unbind from ${socketPath}`)); return; } delete this._forwardingUnix[socketPath]; cb(); }); } this._protocol.openssh_cancelStreamLocalForward(socketPath, wantReply); return this; } if (!wantReply) return this; process.nextTick( cb, new Error( 'strictVendor enabled and server is not OpenSSH or compatible version' ) ); return this; } openssh_forwardOutStreamLocal(socketPath, cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); if (typeof cb !== 'function') cb = noop; if (!this.config.strictVendor || (this.config.strictVendor && RE_OPENSSH.test(this._remoteVer))) { openChannel(this, 'direct-streamlocal@openssh.com', { socketPath }, cb); return this; } process.nextTick( cb, new Error( 'strictVendor enabled and server is not OpenSSH or compatible version' ) ); return this; } sftp(cb) { if (!this._sock || !isWritable(this._sock)) throw new Error('Not connected'); openChannel(this, 'sftp', (err, sftp) => { if (err) { cb(err); return; } reqSubsystem(sftp, 'sftp', (err, sftp_) => { if (err) { cb(err); return; } function removeListeners() { sftp.removeListener('ready', onReady); sftp.removeListener('error', onError); sftp.removeListener('exit', onExit); sftp.removeListener('close', onExit); } function onReady() { // TODO: do not remove exit/close in case remote end closes the // channel abruptly and we need to notify outstanding callbacks removeListeners(); cb(undefined, sftp); } function onError(err) { removeListeners(); cb(err); } function onExit(code, signal) { removeListeners(); let msg; if (typeof code === 'number') msg = `Received exit code ${code} while establishing SFTP session`; else if (signal !== undefined) msg = `Received signal ${signal} while establishing SFTP session`; else msg = 'Received unexpected SFTP session termination'; const err = new Error(msg); err.code = code; err.signal = signal; cb(err); } sftp.on('ready', onReady) .on('error', onError) .on('exit', onExit) .on('close', onExit); sftp._init(); }); }); return this; } setNoDelay(noDelay) { if (this._sock && typeof this._sock.setNoDelay === 'function') this._sock.setNoDelay(noDelay); return this; } } function openChannel(self, type, opts, cb) { // Ask the server to open a channel for some purpose // (e.g. session (sftp, exec, shell), or forwarding a TCP connection const initWindow = MAX_WINDOW; const maxPacket = PACKET_SIZE; if (typeof opts === 'function') { cb = opts; opts = {}; } const wrapper = (err, stream) => { cb(err, stream); }; wrapper.type = type; const localChan = self._chanMgr.add(wrapper); if (localChan === -1) { cb(new Error('No free channels available')); return; } switch (type) { case 'session': case 'sftp': self._protocol.session(localChan, initWindow, maxPacket); break; case 'direct-tcpip': self._protocol.directTcpip(localChan, initWindow, maxPacket, opts); break; case 'direct-streamlocal@openssh.com': self._protocol.openssh_directStreamLocal( localChan, initWindow, maxPacket, opts ); break; default: throw new Error(`Unsupported channel type: ${type}`); } } function reqX11(chan, screen, cb) { // Asks server to start sending us X11 connections const cfg = { single: false, protocol: 'MIT-MAGIC-COOKIE-1', cookie: undefined, screen: 0 }; if (typeof screen === 'function') { cb = screen; } else if (typeof screen === 'object' && screen !== null) { if (typeof screen.single === 'boolean') cfg.single = screen.single; if (typeof screen.screen === 'number') cfg.screen = screen.screen; if (typeof screen.protocol === 'string') cfg.protocol = screen.protocol; if (typeof screen.cookie === 'string') cfg.cookie = screen.cookie; else if (Buffer.isBuffer(screen.cookie)) cfg.cookie = screen.cookie.hexSlice(0, screen.cookie.length); } if (cfg.cookie === undefined) cfg.cookie = randomCookie(); const wantReply = (typeof cb === 'function'); if (chan.outgoing.state !== 'open') { if (wantReply) cb(new Error('Channel is not open')); return; } if (wantReply) { chan._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Unable to request X11')); return; } chan._hasX11 = true; ++chan._client._acceptX11; chan.once('close', () => { if (chan._client._acceptX11) --chan._client._acceptX11; }); cb(); }); } chan._client._protocol.x11Forward(chan.outgoing.id, cfg, wantReply); } function reqPty(chan, opts, cb) { let rows = 24; let cols = 80; let width = 640; let height = 480; let term = 'vt100'; let modes = null; if (typeof opts === 'function') { cb = opts; } else if (typeof opts === 'object' && opts !== null) { if (typeof opts.rows === 'number') rows = opts.rows; if (typeof opts.cols === 'number') cols = opts.cols; if (typeof opts.width === 'number') width = opts.width; if (typeof opts.height === 'number') height = opts.height; if (typeof opts.term === 'string') term = opts.term; if (typeof opts.modes === 'object') modes = opts.modes; } const wantReply = (typeof cb === 'function'); if (chan.outgoing.state !== 'open') { if (wantReply) cb(new Error('Channel is not open')); return; } if (wantReply) { chan._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Unable to request a pseudo-terminal')); return; } cb(); }); } chan._client._protocol.pty(chan.outgoing.id, rows, cols, height, width, term, modes, wantReply); } function reqAgentFwd(chan, cb) { const wantReply = (typeof cb === 'function'); if (chan.outgoing.state !== 'open') { wantReply && cb(new Error('Channel is not open')); return; } if (chan._client._agentFwdEnabled) { wantReply && cb(false); return; } chan._client._agentFwdEnabled = true; chan._callbacks.push((had_err) => { if (had_err) { chan._client._agentFwdEnabled = false; if (wantReply) { cb(had_err !== true ? had_err : new Error('Unable to request agent forwarding')); } return; } if (wantReply) cb(); }); chan._client._protocol.openssh_agentForward(chan.outgoing.id, true); } function reqShell(chan, cb) { if (chan.outgoing.state !== 'open') { cb(new Error('Channel is not open')); return; } chan._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Unable to open shell')); return; } chan.subtype = 'shell'; cb(undefined, chan); }); chan._client._protocol.shell(chan.outgoing.id, true); } function reqExec(chan, cmd, opts, cb) { if (chan.outgoing.state !== 'open') { cb(new Error('Channel is not open')); return; } chan._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Unable to exec')); return; } chan.subtype = 'exec'; chan.allowHalfOpen = (opts.allowHalfOpen !== false); cb(undefined, chan); }); chan._client._protocol.exec(chan.outgoing.id, cmd, true); } function reqEnv(chan, env) { if (chan.outgoing.state !== 'open') return; const keys = Object.keys(env || {}); for (let i = 0; i < keys.length; ++i) { const key = keys[i]; const val = env[key]; chan._client._protocol.env(chan.outgoing.id, key, val, false); } } function reqSubsystem(chan, name, cb) { if (chan.outgoing.state !== 'open') { cb(new Error('Channel is not open')); return; } chan._callbacks.push((had_err) => { if (had_err) { cb(had_err !== true ? had_err : new Error(`Unable to start subsystem: ${name}`)); return; } chan.subtype = 'subsystem'; cb(undefined, chan); }); chan._client._protocol.subsystem(chan.outgoing.id, name, true); } // TODO: inline implementation into single call site function onCHANNEL_OPEN(self, info) { // The server is trying to open a channel with us, this is usually when // we asked the server to forward us connections on some port and now they // are asking us to accept/deny an incoming connection on their side let localChan = -1; let reason; const accept = () => { const chanInfo = { type: info.type, incoming: { id: localChan, window: MAX_WINDOW, packetSize: PACKET_SIZE, state: 'open' }, outgoing: { id: info.sender, window: info.window, packetSize: info.packetSize, state: 'open' } }; const stream = new Channel(self, chanInfo); self._chanMgr.update(localChan, stream); self._protocol.channelOpenConfirm(info.sender, localChan, MAX_WINDOW, PACKET_SIZE); return stream; }; const reject = () => { if (reason === undefined) { if (localChan === -1) reason = CHANNEL_OPEN_FAILURE.RESOURCE_SHORTAGE; else reason = CHANNEL_OPEN_FAILURE.CONNECT_FAILED; } if (localChan !== -1) self._chanMgr.remove(localChan); self._protocol.channelOpenFail(info.sender, reason, ''); }; const reserveChannel = () => { localChan = self._chanMgr.add(); if (localChan === -1) { reason = CHANNEL_OPEN_FAILURE.RESOURCE_SHORTAGE; if (self.config.debug) { self.config.debug( 'Client: Automatic rejection of incoming channel open: ' + 'no channels available' ); } } return (localChan !== -1); }; const data = info.data; switch (info.type) { case 'forwarded-tcpip': { const val = self._forwarding[`${data.destIP}:${data.destPort}`]; if (val !== undefined && reserveChannel()) { if (data.destPort === 0) data.destPort = val; self.emit('tcp connection', data, accept, reject); return; } break; } case 'forwarded-streamlocal@openssh.com': if (self._forwardingUnix[data.socketPath] !== undefined && reserveChannel()) { self.emit('unix connection', data, accept, reject); return; } break; case 'auth-agent@openssh.com': if (self._agentFwdEnabled && typeof self._agent.getStream === 'function' && reserveChannel()) { self._agent.getStream((err, stream) => { if (err) return reject(); const upstream = accept(); upstream.pipe(stream).pipe(upstream); }); return; } break; case 'x11': if (self._acceptX11 !== 0 && reserveChannel()) { self.emit('x11', data, accept, reject); return; } break; default: // Automatically reject any unsupported channel open requests reason = CHANNEL_OPEN_FAILURE.UNKNOWN_CHANNEL_TYPE; if (self.config.debug) { self.config.debug( 'Client: Automatic rejection of unsupported incoming channel open ' + `type: ${info.type}` ); } } if (reason === undefined) { reason = CHANNEL_OPEN_FAILURE.ADMINISTRATIVELY_PROHIBITED; if (self.config.debug) { self.config.debug( 'Client: Automatic rejection of unexpected incoming channel open for: ' + info.type ); } } reject(); } const randomCookie = (() => { const buffer = Buffer.allocUnsafe(16); return () => { randomFillSync(buffer, 0, 16); return buffer.hexSlice(0, 16); }; })(); function makeSimpleAuthHandler(authList) { if (!Array.isArray(authList)) throw new Error('authList must be an array'); let a = 0; return (authsLeft, partialSuccess, cb) => { if (a === authList.length) return false; return authList[a++]; }; } function hostKeysProve(client, keys_, cb) { if (!client._sock || !isWritable(client._sock)) return; if (typeof cb !== 'function') cb = noop; if (!Array.isArray(keys_)) throw new TypeError('Invalid keys argument type'); const keys = []; for (const key of keys_) { const parsed = parseKey(key); if (parsed instanceof Error) throw parsed; keys.push(parsed); } if (!client.config.strictVendor || (client.config.strictVendor && RE_OPENSSH.test(client._remoteVer))) { client._callbacks.push((had_err, data) => { if (had_err) { cb(had_err !== true ? had_err : new Error('Server failed to prove supplied keys')); return; } // TODO: move all of this parsing/verifying logic out of the client? const ret = []; let keyIdx = 0; bufferParser.init(data, 0); while (bufferParser.avail()) { if (keyIdx === keys.length) break; const key = keys[keyIdx++]; const keyPublic = key.getPublicSSH(); const sigEntry = bufferParser.readString(); sigParser.init(sigEntry, 0); const type = sigParser.readString(true); let value = sigParser.readString(); let algo; if (type !== key.type) { if (key.type === 'ssh-rsa') { switch (type) { case 'rsa-sha2-256': algo = 'sha256'; break; case 'rsa-sha2-512': algo = 'sha512'; break; default: continue; } } else { continue; } } const sessionID = client._protocol._kex.sessionID; const verifyData = Buffer.allocUnsafe( 4 + 29 + 4 + sessionID.length + 4 + keyPublic.length ); let p = 0; writeUInt32BE(verifyData, 29, p); verifyData.utf8Write('hostkeys-prove-00@openssh.com', p += 4, 29); writeUInt32BE(verifyData, sessionID.length, p += 29); bufferCopy(sessionID, verifyData, 0, sessionID.length, p += 4); writeUInt32BE(verifyData, keyPublic.length, p += sessionID.length); bufferCopy(keyPublic, verifyData, 0, keyPublic.length, p += 4); if (!(value = sigSSHToASN1(value, type))) continue; if (key.verify(verifyData, value, algo) === true) ret.push(key); } sigParser.clear(); bufferParser.clear(); cb(null, ret); }); client._protocol.openssh_hostKeysProve(keys); return; } process.nextTick( cb, new Error( 'strictVendor enabled and server is not OpenSSH or compatible version' ) ); } function getKeyAlgos(client, key, serverSigAlgs) { switch (key.type) { case 'ssh-rsa': if (client._protocol._compatFlags & COMPAT.IMPLY_RSA_SHA2_SIGALGS) { if (!Array.isArray(serverSigAlgs)) serverSigAlgs = ['rsa-sha2-256', 'rsa-sha2-512']; else serverSigAlgs = ['rsa-sha2-256', 'rsa-sha2-512', ...serverSigAlgs]; } if (Array.isArray(serverSigAlgs)) { if (serverSigAlgs.indexOf('rsa-sha2-256') !== -1) return [['rsa-sha2-256', 'sha256']]; if (serverSigAlgs.indexOf('rsa-sha2-512') !== -1) return [['rsa-sha2-512', 'sha512']]; if (serverSigAlgs.indexOf('ssh-rsa') === -1) return []; } return [['ssh-rsa', 'sha1']]; } } module.exports = Client;

MCP directory API

We provide all the information about MCP servers via our MCP API.

curl -X GET 'https://glama.ai/api/mcp/v1/servers/mfangtao/mcp-ssh-server'

If you have feedback or need assistance with the MCP directory API, please join our Discord server