/* TELNET MODULE Copyright (C) 2017-2019 by Xose PĂ©rez Parts of the code have been borrowed from Thomas Sarlandie's NetServer (https://github.com/sarfata/kbox-firmware/tree/master/src/esp) AsyncBufferedClient based on ESPAsyncTCPbuffer, distributed with the ESPAsyncTCP (https://github.com/me-no-dev/ESPAsyncTCP/blob/master/src/ESPAsyncTCPbuffer.cpp) Copyright (C) 2019-2020 by Maxim Prokhorov Updated to use WiFiServer and support reverse connections by Niek van der Maas < mail at niekvandermaas dot nl> */ #include "telnet.h" #if TELNET_SUPPORT #include #include #include "board.h" #include "ws.h" #if TELNET_SERVER == TELNET_SERVER_ASYNC #include struct AsyncBufferedClient { public: constexpr static const size_t BUFFERS_MAX = 5; using buffer_t = std::vector; AsyncBufferedClient(AsyncClient* client); size_t write(char c); size_t write(const char* data, size_t size=0); void flush(); size_t available(); bool connect(const char *host, uint16_t port); void close(bool now = false); bool connected(); private: void _addBuffer(); static void _trySend(AsyncBufferedClient* client); static void _s_onAck(void* client_ptr, AsyncClient*, size_t, uint32_t); static void _s_onPoll(void* client_ptr, AsyncClient* client); std::unique_ptr _client; std::list _buffers; }; using TTelnetServer = AsyncServer; #if TELNET_SERVER_ASYNC_BUFFERED using TTelnetClient = AsyncBufferedClient; #else using TTelnetClient = AsyncClient; #endif // TELNET_SERVER_ASYNC_BUFFERED #elif TELNET_SERVER == TELNET_SERVER_WIFISERVER using TTelnetServer = WiFiServer; using TTelnetClient = WiFiClient; #else #error "TELNET_SERVER value was not properly set" #endif TTelnetServer _telnetServer(TELNET_PORT); std::unique_ptr _telnetClients[TELNET_MAX_CLIENTS]; bool _telnetAuth = TELNET_AUTHENTICATION; bool _telnetClientsAuth[TELNET_MAX_CLIENTS]; // ----------------------------------------------------------------------------- // Private methods // ----------------------------------------------------------------------------- #if WEB_SUPPORT bool _telnetWebSocketOnKeyCheck(const char * key, JsonVariant& value) { return (strncmp(key, "telnet", 6) == 0); } void _telnetWebSocketOnConnected(JsonObject& root) { root["telnetSTA"] = getSetting("telnetSTA", 1 == TELNET_STA); root["telnetAuth"] = getSetting("telnetAuth", 1 == TELNET_AUTHENTICATION); } #endif #if TELNET_REVERSE_SUPPORT void _telnetReverse(const char * host, uint16_t port) { DEBUG_MSG_P(PSTR("[TELNET] Connecting to reverse telnet on %s:%d\n"), host, port); unsigned char i; for (i = 0; i < TELNET_MAX_CLIENTS; i++) { if (!_telnetClients[i] || !_telnetClients[i]->connected()) { #if TELNET_SERVER == TELNET_SERVER_WIFISERVER _telnetClients[i] = std::make_unique(); #else // TELNET_SERVER == TELNET_SERVER_ASYNC _telnetSetupClient(i, new AsyncClient()); #endif if (_telnetClients[i]->connect(host, port)) { _telnetNotifyConnected(i); return; } else { DEBUG_MSG_P(PSTR("[TELNET] Error connecting reverse telnet\n")); _telnetDisconnect(i); return; } } } //no free/disconnected spot so reject if (i == TELNET_MAX_CLIENTS) { DEBUG_MSG_P(PSTR("[TELNET] Failed too connect - too many clients connected\n")); } } #if MQTT_SUPPORT void _telnetReverseMQTTCallback(unsigned int type, const char * topic, const char * payload) { if (type == MQTT_CONNECT_EVENT) { mqttSubscribe(MQTT_TOPIC_TELNET_REVERSE); } else if (type == MQTT_MESSAGE_EVENT) { String t = mqttMagnitude((char *) topic); if (t.equals(MQTT_TOPIC_TELNET_REVERSE)) { String pl = String(payload); int col = pl.indexOf(':'); if (col != -1) { String host = pl.substring(0, col); uint16_t port = pl.substring(col + 1).toInt(); _telnetReverse(host.c_str(), port); } else { DEBUG_MSG_P(PSTR("[TELNET] Incorrect reverse telnet value given, use the form \"host:ip\"")); } } } } #endif // MQTT_SUPPORT #endif // TELNET_REVERSE_SUPPORT #if TELNET_SERVER == TELNET_SERVER_WIFISERVER static std::vector _telnet_data_buffer; void _telnetDisconnect(unsigned char clientId) { _telnetClients[clientId]->stop(); _telnetClients[clientId] = nullptr; wifiReconnectCheck(); DEBUG_MSG_P(PSTR("[TELNET] Client #%d disconnected\n"), clientId); } #elif TELNET_SERVER == TELNET_SERVER_ASYNC void _telnetCleanUp() { schedule_function([] () { for (unsigned char clientId=0; clientId < TELNET_MAX_CLIENTS; ++clientId) { if (!_telnetClients[clientId]->connected()) { _telnetClients[clientId] = nullptr; wifiReconnectCheck(); DEBUG_MSG_P(PSTR("[TELNET] Client #%d disconnected\n"), clientId); } } }); } // just close, clean-up method above will destroy the object later void _telnetDisconnect(unsigned char clientId) { _telnetClients[clientId]->close(true); } #if TELNET_SERVER_ASYNC_BUFFERED AsyncBufferedClient::AsyncBufferedClient(AsyncClient* client) : _client(client) { _client->onAck(_s_onAck, this); _client->onPoll(_s_onPoll, this); } void AsyncBufferedClient::_trySend(AsyncBufferedClient* client) { while (!client->_buffers.empty()) { auto& chunk = client->_buffers.front(); if (client->_client->space() >= chunk.size()) { client->_client->write((const char*)chunk.data(), chunk.size()); client->_buffers.pop_front(); continue; } return; } } void AsyncBufferedClient::_s_onAck(void* client_ptr, AsyncClient*, size_t, uint32_t) { _trySend(reinterpret_cast(client_ptr)); } void AsyncBufferedClient::_s_onPoll(void* client_ptr, AsyncClient* client) { _trySend(reinterpret_cast(client_ptr)); } void AsyncBufferedClient::_addBuffer() { // Note: c++17 emplace returns created object reference _buffers.emplace_back(); _buffers.back().reserve(TCP_MSS); } size_t AsyncBufferedClient::write(const char* data, size_t size) { if (_buffers.size() > AsyncBufferedClient::BUFFERS_MAX) return 0; size_t written = 0; if (_buffers.empty()) { written = _client->add(data, size); if (written == size) return size; } const size_t full_size = size; char* data_ptr = const_cast(data + written); size -= written; while (size) { if (_buffers.empty()) _addBuffer(); auto& current = _buffers.back(); const auto have = current.capacity() - current.size(); if (have >= size) { current.insert(current.end(), data_ptr, data_ptr + size); size = 0; } else { current.insert(current.end(), data_ptr, data_ptr + have); _addBuffer(); data_ptr += have; size -= have; } } return full_size; } size_t AsyncBufferedClient::write(char c) { char _c[1] {c}; return write(_c, 1); } void AsyncBufferedClient::flush() { _client->send(); } size_t AsyncBufferedClient::available() { return _client->space(); } bool AsyncBufferedClient::connect(const char *host, uint16_t port) { return _client->connect(host, port); } void AsyncBufferedClient::close(bool now) { _client->close(now); } bool AsyncBufferedClient::connected() { return _client->connected(); } #endif // TELNET_SERVER_ASYNC_BUFFERED #endif // TELNET_SERVER == TELNET_SERVER_WIFISERVER size_t _telnetWrite(unsigned char clientId, const char *data, size_t len) { if (_telnetClients[clientId] && _telnetClients[clientId]->connected()) { return _telnetClients[clientId]->write(data, len); } return 0; } size_t _telnetWrite(const char *data, size_t len) { unsigned char count = 0; for (unsigned char i = 0; i < TELNET_MAX_CLIENTS; i++) { // Do not send broadcast messages to unauthenticated clients if (_telnetAuth && !_telnetClientsAuth[i]) { continue; } if (_telnetWrite(i, data, len)) ++count; } return count; } size_t _telnetWrite(const char *data) { return _telnetWrite(data, strlen(data)); } size_t _telnetWrite(unsigned char clientId, const char * message) { return _telnetWrite(clientId, message, strlen(message)); } void _telnetData(unsigned char clientId, char * data, size_t len) { if ((len >= 2) && (data[0] == TELNET_IAC)) { // C-d is sent as two bytes (sometimes repeating) if (data[1] == TELNET_XEOF) { _telnetDisconnect(clientId); } return; // Ignore telnet negotiation } if ((strncmp(data, "close", 5) == 0) || (strncmp(data, "quit", 4) == 0)) { #if TELNET_SERVER == TELNET_SERVER_WIFISERVER _telnetDisconnect(clientId); #else _telnetClients[clientId]->close(); #endif return; } // Password prompt (disable on CORE variant) const bool authenticated = isEspurnaCore() ? true : _telnetClientsAuth[clientId]; if (_telnetAuth && !authenticated) { String password = getAdminPass(); if (strncmp(data, password.c_str(), password.length()) == 0) { DEBUG_MSG_P(PSTR("[TELNET] Client #%d authenticated\n"), clientId); _telnetWrite(clientId, "Password correct, welcome!\n"); _telnetClientsAuth[clientId] = true; } else { _telnetWrite(clientId, "Password (try again): "); } return; } // Inject command #if TERMINAL_SUPPORT terminalInject((void*)data, len); #endif } void _telnetNotifyConnected(unsigned char i) { DEBUG_MSG_P(PSTR("[TELNET] Client #%u connected\n"), i); // If there is no terminal support automatically dump info and crash data #if DEBUG_SUPPORT #if not TERMINAL_SUPPORT wifiDebug(); crashDump(terminalDefaultStream()); crashClear(); #endif #endif if (!isEspurnaCore()) { _telnetClientsAuth[i] = !_telnetAuth; if (_telnetAuth) { if (getAdminPass().length()) { _telnetWrite(i, "Password: "); } else { _telnetClientsAuth[i] = true; } } } else { _telnetClientsAuth[i] = true; } wifiReconnectCheck(); } #if TELNET_SERVER == TELNET_SERVER_WIFISERVER void _telnetLoop() { if (_telnetServer.hasClient()) { int i; for (i = 0; i < TELNET_MAX_CLIENTS; i++) { if (!_telnetClients[i] || !_telnetClients[i]->connected()) { _telnetClients[i] = std::make_unique(_telnetServer.available()); if (_telnetClients[i]->localIP() != WiFi.softAPIP()) { // Telnet is always available for the ESPurna Core image const bool can_connect = isEspurnaCore() ? true : getSetting("telnetSTA", 1 == TELNET_STA); if (!can_connect) { DEBUG_MSG_P(PSTR("[TELNET] Rejecting - Only local connections\n")); _telnetDisconnect(i); return; } } _telnetNotifyConnected(i); break; } } //no free/disconnected spot so reject if (i == TELNET_MAX_CLIENTS) { DEBUG_MSG_P(PSTR("[TELNET] Rejecting - Too many connections\n")); _telnetServer.available().stop(); return; } } for (int i = 0; i < TELNET_MAX_CLIENTS; i++) { if (_telnetClients[i]) { // Handle client timeouts if (!_telnetClients[i]->connected()) { _telnetDisconnect(i); } else { // Read data from clients while (_telnetClients[i] && _telnetClients[i]->available()) { size_t len = _telnetClients[i]->available(); unsigned int r = _telnetClients[i]->readBytes(_telnet_data_buffer.data(), min(_telnet_data_buffer.capacity(), len)); _telnetData(i, _telnet_data_buffer.data(), r); } } } } } #elif TELNET_SERVER == TELNET_SERVER_ASYNC void _telnetSetupClient(unsigned char i, AsyncClient *client) { client->onError([i](void *s, AsyncClient *client, int8_t error) { DEBUG_MSG_P(PSTR("[TELNET] Error %s (%d) on client #%u\n"), client->errorToString(error), error, i); }); client->onData([i](void*, AsyncClient*, void *data, size_t len){ _telnetData(i, reinterpret_cast(data), len); }); client->onDisconnect([i](void*, AsyncClient*) { _telnetCleanUp(); }); // XXX: AsyncClient does not have copy ctor #if TELNET_SERVER_ASYNC_BUFFERED _telnetClients[i] = std::make_unique(client); #else _telnetClients[i] = std::unique_ptr(client); #endif // TELNET_SERVER_ASYNC_BUFFERED } void _telnetNewClient(AsyncClient* client) { if (client->localIP() != WiFi.softAPIP()) { // Telnet is always available for the ESPurna Core image const bool can_connect = isEspurnaCore() ? true : getSetting("telnetSTA", 1 == TELNET_STA); if (!can_connect) { DEBUG_MSG_P(PSTR("[TELNET] Rejecting - Only local connections\n")); client->onDisconnect([](void *s, AsyncClient *c) { delete c; }); client->close(true); return; } } for (unsigned char i = 0; i < TELNET_MAX_CLIENTS; i++) { if (!_telnetClients[i] || !_telnetClients[i]->connected()) { _telnetSetupClient(i, client); _telnetNotifyConnected(i); return; } } DEBUG_MSG_P(PSTR("[TELNET] Rejecting - Too many connections\n")); client->onDisconnect([](void *s, AsyncClient *c) { delete c; }); client->close(true); } #endif // TELNET_SERVER == TELNET_SERVER_WIFISERVER // ----------------------------------------------------------------------------- // Public API // ----------------------------------------------------------------------------- bool telnetConnected() { for (auto& client : _telnetClients) { if (client && client->connected()) return true; } return false; } #if DEBUG_TELNET_SUPPORT bool telnetDebugSend(const char* prefix, const char* data) { if (!telnetConnected()) return false; bool result = false; if (prefix && (prefix[0] != '\0')) { result = _telnetWrite(prefix) > 0; } return (_telnetWrite(data) > 0) || result; } #endif // DEBUG_TELNET_SUPPORT unsigned char telnetWrite(unsigned char ch) { char data[1] = {ch}; return _telnetWrite(data, 1); } void _telnetConfigure() { _telnetAuth = getSetting("telnetAuth", 1 == TELNET_AUTHENTICATION); } void telnetSetup() { #if TELNET_SERVER == TELNET_SERVER_WIFISERVER _telnet_data_buffer.reserve(terminalCapacity()); _telnetServer.setNoDelay(true); _telnetServer.begin(); espurnaRegisterLoop(_telnetLoop); #else _telnetServer.onClient([](void *s, AsyncClient* c) { _telnetNewClient(c); }, nullptr); _telnetServer.begin(); #endif #if WEB_SUPPORT wsRegister() .onVisible([](JsonObject& root) { root["telnetVisible"] = 1; }) .onConnected(_telnetWebSocketOnConnected) .onKeyCheck(_telnetWebSocketOnKeyCheck); #endif #if TELNET_REVERSE_SUPPORT #if MQTT_SUPPORT mqttRegister(_telnetReverseMQTTCallback); #endif #if TERMINAL_SUPPORT terminalRegisterCommand(F("TELNET.REVERSE"), [](const terminal::CommandContext& ctx) { if (ctx.argc < 3) { terminalError(F("Wrong arguments. Usage: TELNET.REVERSE ")); return; } terminalOK(); _telnetReverse(ctx.argv[1].c_str(), ctx.argv[2].toInt()); }); #endif #endif espurnaRegisterReload(_telnetConfigure); _telnetConfigure(); DEBUG_MSG_P(PSTR("[TELNET] Listening on port %d\n"), TELNET_PORT); } #endif // TELNET_SUPPORT