/* * Copyright (c) 2017 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief Telnet console * * * Telnet console driver. * Hooks into the printk and fputc (for printf) modules. * * Telnet has been standardized in 1983 * RFC 854 - https://tools.ietf.org/html/rfc854 */ #define SYS_LOG_LEVEL CONFIG_SYS_LOG_TELNET_CONSOLE_LEVEL #define SYS_LOG_DOMAIN "net/telnet" #include #include #include #include #include #include #include #include #include #include "telnet_protocol.h" /* Various definitions mapping the telnet service configuration options */ #define TELNET_PORT CONFIG_TELNET_CONSOLE_PORT #define TELNET_STACK_SIZE CONFIG_TELNET_CONSOLE_THREAD_STACK #define TELNET_PRIORITY CONFIG_TELNET_CONSOLE_PRIO #define TELNET_LINES CONFIG_TELNET_CONSOLE_LINE_BUF_NUMBERS #define TELNET_LINE_SIZE CONFIG_TELNET_CONSOLE_LINE_BUF_SIZE #define TELNET_TIMEOUT K_MSEC(CONFIG_TELNET_CONSOLE_SEND_TIMEOUT) #define TELNET_THRESHOLD CONFIG_TELNET_CONSOLE_SEND_THRESHOLD #define TELNET_MIN_MSG 2 /* These 2 structures below are used to store the console output * before sending it to the client. This is done to keep some * reactivity: the ring buffer is non-protected, if first line has * not been sent yet, and if next line is reaching the same index in rb, * the first one will be replaced. In a perfect world, this should * not happen. However on a loaded system with a lot of debug output * this is bound to happen eventualy, moreover if it does not have * the luxury to bufferize as much as it wants to. Just raise * CONFIG_TELNET_CONSOLE_LINE_BUF_NUMBERS if possible. */ struct line_buf { char buf[TELNET_LINE_SIZE]; u16_t len; }; struct line_buf_rb { struct line_buf l_bufs[TELNET_LINES]; u16_t line_in; u16_t line_out; }; static struct line_buf_rb telnet_rb; static K_THREAD_STACK_DEFINE(telnet_stack, TELNET_STACK_SIZE); static struct k_thread telnet_thread_data; static K_SEM_DEFINE(send_lock, 0, UINT_MAX); /* The timer is used to send non-lf terminated output that has * been around for "tool long". This will prove to be useful * to send the shell prompt for instance. * ToDo: raise the time, incrementaly, when no output is coming * so the timer will kick in less and less. */ static void telnet_send_prematurely(struct k_timer *timer); static K_TIMER_DEFINE(send_timer, telnet_send_prematurely, NULL); /* For now we handle a unique telnet client connection */ static struct net_context *client_cnx; static struct net_pkt *out_pkt; static int (*orig_printk_hook)(int); static struct k_fifo *avail_queue; static struct k_fifo *input_queue; #ifdef CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND static K_SEM_DEFINE(cmd_lock, 1, 1); static struct telnet_simple_command telnet_cmd; #endif /* CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND */ extern void __printk_hook_install(int (*fn)(int)); extern void *__printk_get_hook(void); static void telnet_rb_init(void) { int i; telnet_rb.line_in = 0; telnet_rb.line_out = 0; for (i = 0; i < TELNET_LINES; i++) { telnet_rb.l_bufs[i].len = 0; } } static void telnet_end_client_connection(void) { __printk_hook_install(orig_printk_hook); orig_printk_hook = NULL; k_timer_stop(&send_timer); net_context_put(client_cnx); client_cnx = NULL; if (out_pkt) { net_pkt_unref(out_pkt); } telnet_rb_init(); } static int telnet_setup_out_pkt(struct net_context *client) { out_pkt = net_pkt_get_tx(client, K_FOREVER); if (!out_pkt) { /* Cannot happen atm, net_pkt waits indefinitely */ return -ENOBUFS; } return 0; } static void telnet_rb_switch(void) { telnet_rb.line_in++; if (telnet_rb.line_in == TELNET_LINES) { telnet_rb.line_in = 0; } telnet_rb.l_bufs[telnet_rb.line_in].len = 0; /* Unfortunately, we don't have enough line buffer, * so we eat the next to be sent. */ if (telnet_rb.line_in == telnet_rb.line_out) { telnet_rb.line_out++; if (telnet_rb.line_out == TELNET_LINES) { telnet_rb.line_out = 0; } } k_timer_start(&send_timer, TELNET_TIMEOUT, TELNET_TIMEOUT); k_sem_give(&send_lock); } static inline struct line_buf *telnet_rb_get_line_out(void) { u16_t out = telnet_rb.line_out; telnet_rb.line_out++; if (telnet_rb.line_out == TELNET_LINES) { telnet_rb.line_out = 0; } if (!telnet_rb.l_bufs[out].len) { return NULL; } return &telnet_rb.l_bufs[out]; } static inline struct line_buf *telnet_rb_get_line_in(void) { return &telnet_rb.l_bufs[telnet_rb.line_in]; } /* The actual printk hook */ static int telnet_console_out(int c) { int key = irq_lock(); struct line_buf *lb = telnet_rb_get_line_in(); bool yield = false; lb->buf[lb->len++] = (char)c; if (c == '\n' || lb->len == TELNET_LINE_SIZE - 1) { lb->buf[lb->len-1] = NVT_CR; lb->buf[lb->len++] = NVT_LF; telnet_rb_switch(); yield = true; } irq_unlock(key); #ifdef CONFIG_TELNET_CONSOLE_DEBUG_DEEP /* This is ugly, but if one wants to debug telnet, it * will also output the character to original console */ orig_printk_hook(c); #endif if (yield) { k_yield(); } return c; } static void telnet_send_prematurely(struct k_timer *timer) { struct line_buf *lb = telnet_rb_get_line_in(); if (lb->len >= TELNET_THRESHOLD) { telnet_rb_switch(); } } static void telnet_sent_cb(struct net_context *client, int status, void *token, void *user_data) { if (status) { telnet_end_client_connection(); SYS_LOG_ERR("Could not sent last packet"); } } static inline bool telnet_send(void) { struct line_buf *lb = telnet_rb_get_line_out(); if (lb) { net_pkt_append_all(out_pkt, lb->len, (u8_t *)lb->buf, K_FOREVER); /* We reinitialize the line buffer */ lb->len = 0; if (net_context_send(out_pkt, telnet_sent_cb, K_NO_WAIT, NULL, NULL) || telnet_setup_out_pkt(client_cnx)) { return false; } } return true; } #ifdef CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND static int telnet_console_out_nothing(int c) { return c; } static inline void telnet_command_send_reply(u8_t *msg, u16_t len) { net_pkt_append_all(out_pkt, len, msg, K_FOREVER); net_context_send(out_pkt, telnet_sent_cb, K_NO_WAIT, NULL, NULL); telnet_setup_out_pkt(client_cnx); } static inline void telnet_reply_ay_command(void) { static const char alive[24] = "Zephyr at your service\r\n"; telnet_command_send_reply((u8_t *)alive, 24); } static inline void telnet_reply_do_command(void) { switch (telnet_cmd.opt) { case NVT_OPT_SUPR_GA: telnet_cmd.op = NVT_CMD_WILL; break; default: telnet_cmd.op = NVT_CMD_WONT; break; } telnet_command_send_reply((u8_t *)&telnet_cmd, sizeof(struct telnet_simple_command)); } static inline void telnet_reply_command(void) { if (k_sem_take(&cmd_lock, K_NO_WAIT)) { return; } if (!telnet_cmd.iac) { goto out; } switch (telnet_cmd.op) { case NVT_CMD_AO: /* OK, no output then */ __printk_hook_install(telnet_console_out_nothing); telnet_rb_init(); break; case NVT_CMD_AYT: telnet_reply_ay_command(); break; case NVT_CMD_DO: telnet_reply_do_command(); break; default: SYS_LOG_DBG("Operation %u not handled", telnet_cmd.op); break; } telnet_cmd.iac = NVT_NUL; telnet_cmd.op = NVT_NUL; telnet_cmd.opt = NVT_NUL; out: k_sem_give(&cmd_lock); } #else #define telnet_reply_command() #endif /* CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND */ static inline bool telnet_handle_command(struct net_pkt *pkt) { struct telnet_simple_command *cmd = (struct telnet_simple_command *)net_pkt_appdata(pkt); if (cmd->iac != NVT_CMD_IAC) { return false; } #ifdef CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND cmd = (struct telnet_simple_command *)l_start; SYS_LOG_DBG("Got a command %u/%u/%u", cmd->iac, cmd->op, cmd->opt); if (!k_sem_take(&cmd_lock, K_NO_WAIT)) { telnet_command_cpy(&telnet_cmd, cmd); k_sem_give(&cmd_lock); k_sem_give(&send_lock); } #endif /* CONFIG_TELNET_CONSOLE_SUPPORT_COMMAND */ return true; } static inline void telnet_handle_input(struct net_pkt *pkt) { struct console_input *input; u16_t len, offset, pos; len = net_pkt_appdatalen(pkt); if (len > CONSOLE_MAX_LINE_LEN || len < TELNET_MIN_MSG) { return; } if (telnet_handle_command(pkt)) { return; } if (!avail_queue || !input_queue) { return; } input = k_fifo_get(avail_queue, K_NO_WAIT); if (!input) { return; } offset = net_pkt_get_len(pkt) - len; net_frag_read(pkt->frags, offset, &pos, len, (u8_t *)input->line); /* LF/CR will be removed if only the line is not NUL terminated */ if (input->line[len-1] != NVT_NUL) { if (input->line[len-1] == NVT_LF) { input->line[len-1] = NVT_NUL; } if (input->line[len-2] == NVT_CR) { input->line[len-2] = NVT_NUL; } } k_fifo_put(input_queue, input); } static void telnet_recv(struct net_context *client, struct net_pkt *pkt, int status, void *user_data) { if (!pkt || status) { telnet_end_client_connection(); SYS_LOG_DBG("Telnet client dropped (AF_INET%s) status %d", net_context_get_family(client) == AF_INET ? "" : "6", status); return; } telnet_handle_input(pkt); net_pkt_unref(pkt); } /* Telnet server loop, used to send buffered output in the RB */ static void telnet_run(void) { while (true) { k_sem_take(&send_lock, K_FOREVER); if (!telnet_send()) { telnet_end_client_connection(); } telnet_reply_command(); } } static void telnet_accept(struct net_context *client, struct sockaddr *addr, socklen_t addrlen, int error, void *user_data) { if (error) { SYS_LOG_ERR("Error %d", error); goto error; } if (client_cnx) { SYS_LOG_WRN("A telnet client is already in."); goto error; } if (net_context_recv(client, telnet_recv, 0, NULL)) { SYS_LOG_ERR("Unable to setup reception (family %u)", net_context_get_family(client)); goto error; } if (telnet_setup_out_pkt(client)) { goto error; } SYS_LOG_DBG("Telnet client connected (family AF_INET%s)", net_context_get_family(client) == AF_INET ? "" : "6"); orig_printk_hook = __printk_get_hook(); __printk_hook_install(telnet_console_out); client_cnx = client; k_timer_start(&send_timer, TELNET_TIMEOUT, TELNET_TIMEOUT); return; error: net_context_put(client); } static void telnet_setup_server(struct net_context **ctx, sa_family_t family, struct sockaddr *addr, socklen_t addrlen) { if (net_context_get(family, SOCK_STREAM, IPPROTO_TCP, ctx)) { SYS_LOG_ERR("No context available"); goto error; } if (net_context_bind(*ctx, addr, addrlen)) { SYS_LOG_ERR("Cannot bind on family AF_INET%s", family == AF_INET ? "" : "6"); goto error; } if (net_context_listen(*ctx, 0)) { SYS_LOG_ERR("Cannot listen on"); goto error; } if (net_context_accept(*ctx, telnet_accept, K_NO_WAIT, NULL)) { SYS_LOG_ERR("Cannot accept"); goto error; } SYS_LOG_DBG("Telnet console enabled on AF_INET%s", family == AF_INET ? "" : "6"); return; error: SYS_LOG_ERR("Unable to start telnet on AF_INET%s", family == AF_INET ? "" : "6"); if (*ctx) { net_context_put(*ctx); *ctx = NULL; } } void telnet_register_input(struct k_fifo *avail, struct k_fifo *lines, u8_t (*completion)(char *str, u8_t len)) { ARG_UNUSED(completion); avail_queue = avail; input_queue = lines; } static int telnet_console_init(struct device *arg) { #ifdef CONFIG_NET_IPV4 struct sockaddr_in any_addr4 = { .sin_family = AF_INET, .sin_port = htons(TELNET_PORT), .sin_addr = INADDR_ANY_INIT }; static struct net_context *ctx4; #endif #ifdef CONFIG_NET_IPV6 struct sockaddr_in6 any_addr6 = { .sin6_family = AF_INET6, .sin6_port = htons(TELNET_PORT), .sin6_addr = IN6ADDR_ANY_INIT }; static struct net_context *ctx6; #endif #ifdef CONFIG_NET_IPV4 telnet_setup_server(&ctx4, AF_INET, (struct sockaddr *)&any_addr4, sizeof(any_addr4)); #endif #ifdef CONFIG_NET_IPV6 telnet_setup_server(&ctx6, AF_INET6, (struct sockaddr *)&any_addr6, sizeof(any_addr6)); #endif k_thread_create(&telnet_thread_data, telnet_stack, TELNET_STACK_SIZE, (k_thread_entry_t)telnet_run, NULL, NULL, NULL, K_PRIO_COOP(TELNET_PRIORITY), 0, K_MSEC(10)); SYS_LOG_INF("Telnet console initialized"); return 0; } /* Telnet is initialized as an application directly, as it requires * the whole network stack to be ready. */ SYS_INIT(telnet_console_init, APPLICATION, CONFIG_TELNET_CONSOLE_INIT_PRIORITY);