/* * This file is part of the Micro Python project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2015 Daniel Campora * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include "py/mpconfig.h" #include MICROPY_HAL_H #include "py/obj.h" #include "telnet.h" #include "simplelink.h" #include "modnetwork.h" #include "modwlan.h" #include "modusocket.h" #include "debug.h" #include "mpexception.h" #include "serverstask.h" #include "genhdr/mpversion.h" #include "irq.h" /****************************************************************************** DEFINE PRIVATE CONSTANTS ******************************************************************************/ #define TELNET_PORT 23 // rxRindex and rxWindex must be uint8_t and TELNET_RX_BUFFER_SIZE == 256 #define TELNET_RX_BUFFER_SIZE 256 #define TELNET_MAX_CLIENTS 1 #define TELNET_TX_RETRIES_MAX 50 #define TELNET_WAIT_TIME_MS 5 #define TELNET_LOGIN_RETRIES_MAX 3 #define TELNET_CYCLE_TIME_MS (SERVERS_CYCLE_TIME_MS * 2) /****************************************************************************** DEFINE PRIVATE TYPES ******************************************************************************/ typedef enum { E_TELNET_RESULT_OK = 0, E_TELNET_RESULT_AGAIN, E_TELNET_RESULT_FAILED } telnet_result_t; typedef enum { E_TELNET_STE_DISABLED = 0, E_TELNET_STE_START, E_TELNET_STE_LISTEN, E_TELNET_STE_CONNECTED, E_TELNET_STE_LOGGED_IN } telnet_state_t; typedef enum { E_TELNET_STE_SUB_WELCOME, E_TELNET_STE_SUB_SND_USER_OPTIONS, E_TELNET_STE_SUB_REQ_USER, E_TELNET_STE_SUB_GET_USER, E_TELNET_STE_SUB_REQ_PASSWORD, E_TELNET_STE_SUB_SND_PASSWORD_OPTIONS, E_TELNET_STE_SUB_GET_PASSWORD, E_TELNET_STE_SUB_INVALID_LOGGIN, E_TELNET_STE_SUB_SND_REPL_OPTIONS, E_TELNET_STE_SUB_LOGGIN_SUCCESS } telnet_connected_substate_t; typedef union { telnet_connected_substate_t connected; } telnet_substate_t; typedef struct { uint8_t *rxBuffer; uint32_t timeout; telnet_state_t state; telnet_substate_t substate; int16_t sd; int16_t n_sd; // rxRindex and rxWindex must be uint8_t and TELNET_RX_BUFFER_SIZE == 256 uint8_t rxWindex; uint8_t rxRindex; uint8_t txRetries; uint8_t logginRetries; bool enabled; bool credentialsValid; } telnet_data_t; /****************************************************************************** DECLARE PRIVATE DATA ******************************************************************************/ static telnet_data_t telnet_data; static const char* telnet_welcome_msg = "Micro Python " MICROPY_GIT_TAG " on " MICROPY_BUILD_DATE "; " MICROPY_HW_BOARD_NAME " with " MICROPY_HW_MCU_NAME "\r\n"; static const char* telnet_request_user = "Login as: "; static const char* telnet_request_password = "Password: "; static const char* telnet_invalid_loggin = "\r\nInvalid credentials, try again.\r\n"; static const char* telnet_loggin_success = "\r\nLogin succeeded!\r\nType \"help()\" for more information.\r\n"; static const uint8_t telnet_options_user[] = // IAC WONT ECHO IAC WONT SUPPRESS_GO_AHEAD IAC WILL LINEMODE { 255, 252, 1, 255, 252, 3, 255, 251, 34 }; static const uint8_t telnet_options_pass[] = // IAC WILL ECHO IAC WONT SUPPRESS_GO_AHEAD IAC WILL LINEMODE { 255, 251, 1, 255, 252, 3, 255, 251, 34 }; static const uint8_t telnet_options_repl[] = // IAC WILL ECHO IAC WILL SUPPRESS_GO_AHEAD IAC WONT LINEMODE { 255, 251, 1, 255, 251, 3, 255, 252, 34 }; /****************************************************************************** DECLARE PRIVATE FUNCTIONS ******************************************************************************/ static void telnet_wait_for_enabled (void); static bool telnet_create_socket (void); static void telnet_wait_for_connection (void); static void telnet_send_and_proceed (void *data, _i16 Len, telnet_connected_substate_t next_state); static telnet_result_t telnet_send_non_blocking (void *data, _i16 Len); static telnet_result_t telnet_recv_text_non_blocking (void *buff, _i16 Maxlen, _i16 *rxLen); static void telnet_process (void); static int telnet_process_credential (char *credential, _i16 rxLen); static void telnet_parse_input (uint8_t *str, int16_t *len); static bool telnet_send_with_retries (int16_t sd, const void *pBuf, int16_t len); static void telnet_reset_buffer (void); /****************************************************************************** DEFINE PUBLIC FUNCTIONS ******************************************************************************/ void telnet_init (void) { // Allocate memory for the receive buffer (from the RTOS heap) ASSERT ((telnet_data.rxBuffer = mem_Malloc(TELNET_RX_BUFFER_SIZE)) != NULL); telnet_data.state = E_TELNET_STE_DISABLED; } void telnet_run (void) { _i16 rxLen; switch (telnet_data.state) { case E_TELNET_STE_DISABLED: telnet_wait_for_enabled(); break; case E_TELNET_STE_START: if (wlan_is_connected() && telnet_create_socket()) { telnet_data.state = E_TELNET_STE_LISTEN; } break; case E_TELNET_STE_LISTEN: telnet_wait_for_connection(); break; case E_TELNET_STE_CONNECTED: switch (telnet_data.substate.connected) { case E_TELNET_STE_SUB_WELCOME: telnet_send_and_proceed((void *)telnet_welcome_msg, strlen(telnet_welcome_msg), E_TELNET_STE_SUB_SND_USER_OPTIONS); break; case E_TELNET_STE_SUB_SND_USER_OPTIONS: telnet_send_and_proceed((void *)telnet_options_user, sizeof(telnet_options_user), E_TELNET_STE_SUB_REQ_USER); break; case E_TELNET_STE_SUB_REQ_USER: // to catch any left over characters from the previous actions telnet_recv_text_non_blocking(telnet_data.rxBuffer, TELNET_RX_BUFFER_SIZE, &rxLen); telnet_send_and_proceed((void *)telnet_request_user, strlen(telnet_request_user), E_TELNET_STE_SUB_GET_USER); break; case E_TELNET_STE_SUB_GET_USER: if (E_TELNET_RESULT_OK == telnet_recv_text_non_blocking(telnet_data.rxBuffer + telnet_data.rxWindex, TELNET_RX_BUFFER_SIZE - telnet_data.rxWindex, &rxLen)) { int result; if ((result = telnet_process_credential (servers_user, rxLen))) { telnet_data.credentialsValid = result > 0 ? true : false; telnet_data.substate.connected = E_TELNET_STE_SUB_REQ_PASSWORD; } } break; case E_TELNET_STE_SUB_REQ_PASSWORD: telnet_send_and_proceed((void *)telnet_request_password, strlen(telnet_request_password), E_TELNET_STE_SUB_SND_PASSWORD_OPTIONS); break; case E_TELNET_STE_SUB_SND_PASSWORD_OPTIONS: // to catch any left over characters from the previous actions telnet_recv_text_non_blocking(telnet_data.rxBuffer, TELNET_RX_BUFFER_SIZE, &rxLen); telnet_send_and_proceed((void *)telnet_options_pass, sizeof(telnet_options_pass), E_TELNET_STE_SUB_GET_PASSWORD); break; case E_TELNET_STE_SUB_GET_PASSWORD: if (E_TELNET_RESULT_OK == telnet_recv_text_non_blocking(telnet_data.rxBuffer + telnet_data.rxWindex, TELNET_RX_BUFFER_SIZE - telnet_data.rxWindex, &rxLen)) { int result; if ((result = telnet_process_credential (servers_pass, rxLen))) { if ((telnet_data.credentialsValid = telnet_data.credentialsValid && (result > 0 ? true : false))) { telnet_data.substate.connected = E_TELNET_STE_SUB_SND_REPL_OPTIONS; } else { telnet_data.substate.connected = E_TELNET_STE_SUB_INVALID_LOGGIN; } } } break; case E_TELNET_STE_SUB_INVALID_LOGGIN: if (E_TELNET_RESULT_OK == telnet_send_non_blocking((void *)telnet_invalid_loggin, strlen(telnet_invalid_loggin))) { telnet_data.credentialsValid = true; if (++telnet_data.logginRetries >= TELNET_LOGIN_RETRIES_MAX) { telnet_reset(); } else { telnet_data.substate.connected = E_TELNET_STE_SUB_SND_USER_OPTIONS; } } break; case E_TELNET_STE_SUB_SND_REPL_OPTIONS: telnet_send_and_proceed((void *)telnet_options_repl, sizeof(telnet_options_repl), E_TELNET_STE_SUB_LOGGIN_SUCCESS); break; case E_TELNET_STE_SUB_LOGGIN_SUCCESS: if (E_TELNET_RESULT_OK == telnet_send_non_blocking((void *)telnet_loggin_success, strlen(telnet_loggin_success))) { // clear the current line and force the prompt telnet_reset_buffer(); telnet_data.state= E_TELNET_STE_LOGGED_IN; } default: break; } break; case E_TELNET_STE_LOGGED_IN: telnet_process(); break; default: break; } if (telnet_data.state >= E_TELNET_STE_CONNECTED) { if (telnet_data.timeout++ > (servers_get_timeout() / TELNET_CYCLE_TIME_MS)) { telnet_reset(); } } } void telnet_tx_strn (const char *str, int len) { if (len > 0 && telnet_data.n_sd > 0) { telnet_send_with_retries(telnet_data.n_sd, str, len); } } void telnet_tx_strn_cooked (const char *str, uint len) { int32_t nslen = 0; const char *_str = str; for (int i = 0; i < len; i++) { if (str[i] == '\n') { telnet_send_with_retries(telnet_data.n_sd, _str, nslen); telnet_send_with_retries(telnet_data.n_sd, "\r\n", 2); _str += nslen + 1; nslen = 0; } else { nslen++; } } if (_str < str + len) { telnet_send_with_retries(telnet_data.n_sd, _str, nslen); } } bool telnet_rx_any (void) { return (telnet_data.n_sd > 0) ? ((telnet_data.rxRindex != telnet_data.rxWindex) && (telnet_data.state == E_TELNET_STE_LOGGED_IN)) : false; } int telnet_rx_char (void) { int rx_char = -1; if (telnet_data.rxRindex != telnet_data.rxWindex) { // rxRindex must be uint8_t and TELNET_RX_BUFFER_SIZE == 256 so that it wraps around automatically rx_char = (int)telnet_data.rxBuffer[telnet_data.rxRindex++]; } return rx_char; } void telnet_enable (void) { telnet_data.enabled = true; } void telnet_disable (void) { telnet_reset(); telnet_data.enabled = false; telnet_data.state = E_TELNET_STE_DISABLED; } void telnet_reset (void) { // close the connection and start all over again servers_close_socket(&telnet_data.n_sd); servers_close_socket(&telnet_data.sd); telnet_data.state = E_TELNET_STE_START; } bool telnet_is_enabled (void) { return telnet_data.enabled; } bool telnet_is_active (void) { return (telnet_data.state == E_TELNET_STE_LOGGED_IN); } /****************************************************************************** DEFINE PRIVATE FUNCTIONS ******************************************************************************/ static void telnet_wait_for_enabled (void) { // Init telnet's data telnet_data.n_sd = -1; telnet_data.sd = -1; // Check if the telnet service has been enabled if (telnet_data.enabled) { telnet_data.state = E_TELNET_STE_START; } } static bool telnet_create_socket (void) { SlSockNonblocking_t nonBlockingOption; sockaddr_in sServerAddress; _i16 result; // Open a socket for telnet ASSERT ((telnet_data.sd = sl_Socket(AF_INET, SOCK_STREAM, IPPROTO_TCP)) > 0); if (telnet_data.sd > 0) { // add the socket to the network administration modusocket_socket_add(telnet_data.sd, false); // Enable non-blocking mode nonBlockingOption.NonblockingEnabled = 1; ASSERT ((result = sl_SetSockOpt(telnet_data.sd, SOL_SOCKET, SL_SO_NONBLOCKING, &nonBlockingOption, sizeof(nonBlockingOption))) == SL_SOC_OK); // Bind the socket to a port number sServerAddress.sin_family = AF_INET; sServerAddress.sin_addr.s_addr = INADDR_ANY; sServerAddress.sin_port = htons(TELNET_PORT); ASSERT ((result |= sl_Bind(telnet_data.sd, (const SlSockAddr_t *)&sServerAddress, sizeof(sServerAddress))) == SL_SOC_OK); // Start listening ASSERT ((result |= sl_Listen (telnet_data.sd, TELNET_MAX_CLIENTS)) == SL_SOC_OK); if (result == SL_SOC_OK) { return true; } servers_close_socket(&telnet_data.sd); } return false; } static void telnet_wait_for_connection (void) { SlSocklen_t in_addrSize; sockaddr_in sClientAddress; // accepts a connection from a TCP client, if there is any, otherwise returns SL_EAGAIN telnet_data.n_sd = sl_Accept(telnet_data.sd, (SlSockAddr_t *)&sClientAddress, (SlSocklen_t *)&in_addrSize); if (telnet_data.n_sd == SL_EAGAIN) { return; } else { if (telnet_data.n_sd <= 0) { // error telnet_reset(); return; } // close the listening socket, we don't need it anymore servers_close_socket(&telnet_data.sd); // add the new socket to the network administration modusocket_socket_add(telnet_data.n_sd, false); // client connected, so go on telnet_data.rxWindex = 0; telnet_data.rxRindex = 0; telnet_data.txRetries = 0; telnet_data.state = E_TELNET_STE_CONNECTED; telnet_data.substate.connected = E_TELNET_STE_SUB_WELCOME; telnet_data.credentialsValid = true; telnet_data.logginRetries = 0; telnet_data.timeout = 0; } } static void telnet_send_and_proceed (void *data, _i16 Len, telnet_connected_substate_t next_state) { if (E_TELNET_RESULT_OK == telnet_send_non_blocking(data, Len)) { telnet_data.substate.connected = next_state; } } static telnet_result_t telnet_send_non_blocking (void *data, _i16 Len) { int16_t result = sl_Send(telnet_data.n_sd, data, Len, 0); if (result > 0) { telnet_data.txRetries = 0; return E_TELNET_RESULT_OK; } else if ((TELNET_TX_RETRIES_MAX >= ++telnet_data.txRetries) && (result == SL_EAGAIN)) { return E_TELNET_RESULT_AGAIN; } else { // error telnet_reset(); return E_TELNET_RESULT_FAILED; } } static telnet_result_t telnet_recv_text_non_blocking (void *buff, _i16 Maxlen, _i16 *rxLen) { *rxLen = sl_Recv(telnet_data.n_sd, buff, Maxlen, 0); // if there's data received, parse it if (*rxLen > 0) { telnet_data.timeout = 0; telnet_parse_input (buff, rxLen); if (*rxLen > 0) { return E_TELNET_RESULT_OK; } } else if (*rxLen != SL_EAGAIN) { // error telnet_reset(); return E_TELNET_RESULT_FAILED; } return E_TELNET_RESULT_AGAIN; } static void telnet_process (void) { _i16 rxLen; _i16 maxLen = (telnet_data.rxWindex >= telnet_data.rxRindex) ? (TELNET_RX_BUFFER_SIZE - telnet_data.rxWindex) : ((telnet_data.rxRindex - telnet_data.rxWindex) - 1); // to avoid an overrrun maxLen = (telnet_data.rxRindex == 0) ? (maxLen - 1) : maxLen; if (maxLen > 0) { if (E_TELNET_RESULT_OK == telnet_recv_text_non_blocking(&telnet_data.rxBuffer[telnet_data.rxWindex], maxLen, &rxLen)) { // rxWindex must be uint8_t and TELNET_RX_BUFFER_SIZE == 256 so that it wraps around automatically telnet_data.rxWindex = telnet_data.rxWindex + rxLen; } } } static int telnet_process_credential (char *credential, _i16 rxLen) { telnet_data.rxWindex += rxLen; if (telnet_data.rxWindex >= SERVERS_USER_PASS_LEN_MAX) { telnet_data.rxWindex = SERVERS_USER_PASS_LEN_MAX; } uint8_t *p = telnet_data.rxBuffer + SERVERS_USER_PASS_LEN_MAX; // if a '\r' is found, or the length exceeds the max username length if ((p = memchr(telnet_data.rxBuffer, '\r', telnet_data.rxWindex)) || (telnet_data.rxWindex >= SERVERS_USER_PASS_LEN_MAX)) { uint8_t len = p - telnet_data.rxBuffer; telnet_data.rxWindex = 0; if ((len > 0) && (memcmp(credential, telnet_data.rxBuffer, MAX(len, strlen(credential))) == 0)) { return 1; } return -1; } return 0; } static void telnet_parse_input (uint8_t *str, int16_t *len) { int16_t b_len = *len; uint8_t *b_str = str; for (uint8_t *_str = b_str; _str < b_str + b_len; ) { if (*_str <= 127) { if (telnet_data.state == E_TELNET_STE_LOGGED_IN && *_str == user_interrupt_char) { // raise a keyboard exception mpexception_keyboard_nlr_jump(); (*len)--; _str++; } else { *str++ = *_str++; } } else { // in case we have received an incomplete telnet option, unlikely, but possible _str += MIN(3, *len); *len -= MIN(3, *len); } } } static bool telnet_send_with_retries (int16_t sd, const void *pBuf, int16_t len) { int32_t retries = 0; uint32_t delay = TELNET_WAIT_TIME_MS; // only if we are not within interrupt context and interrupts are enabled if ((HAL_NVIC_INT_CTRL_REG & HAL_VECTACTIVE_MASK) == 0 && query_irq() == IRQ_STATE_ENABLED) { do { _i16 result = sl_Send(sd, pBuf, len, 0); if (result > 0) { return true; } else if (SL_EAGAIN != result) { return false; } // start with the default delay and increment it on each retry HAL_Delay (delay++); } while (++retries <= TELNET_TX_RETRIES_MAX); } return false; } static void telnet_reset_buffer (void) { // erase any characters present in the current line memset (telnet_data.rxBuffer, '\b', TELNET_RX_BUFFER_SIZE / 2); telnet_data.rxWindex = TELNET_RX_BUFFER_SIZE / 2; // fake an "enter" key pressed to display the prompt telnet_data.rxBuffer[telnet_data.rxWindex++] = '\r'; }