/** * mds — A micro-display server * Copyright © 2014 Mattias Andrée (maandree@member.fsf.org) * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "mds-kkbd.h" /* TODO: This server should wait for `Command: get-vt` to be available, query the active VT and connect to that TTY instead of stdin. */ #include #include #include #include #include #include #include #include #include #include #include #include #define reconnect_to_display() -1 #ifdef __sparc__ # define GET_LED KIOCGLED # define SET_LED KIOCSLED #else # define GET_LED KDGETLED # define SET_LED KDSETLED #endif #ifdef __sparc__ # define LED_NUM_LOCK 1 # define LED_CAPS_LOCK 8 # define LED_SCRL_LOCK 4 # define LED_COMPOSE 2 #else # define LED_NUM_LOCK LED_NUM # define LED_CAPS_LOCK LED_CAP # define LED_SCRL_LOCK LED_SCR #endif #define MDS_KKBD_VARS_VERSION 0 /** * The name of the keyboard for which its server implements control */ #define KEYBOARD_ID "kernel" /* NOTE: length hardcoded in `initialise_server` */ /** * LED:s that we believe are pressent on the keyboard */ #ifdef LED_COMPOSE # define PRESENT_LEDS "num caps scrl compose" #else # define PRESENT_LEDS "num caps scrl" #endif /** * This variable should declared by the actual server implementation. * It must be configured before `main` is invoked. * * This tells the server-base how to behave */ server_characteristics_t server_characteristics = { .require_privileges = 0, .require_display = 1, .require_respawn_info = 0, .sanity_check_argc = 1, .fork_for_safety = 1, .danger_is_deadly = 0 }; /** * Value of the ‘Message ID’ header for the next message */ static uint32_t message_id = 3; /** * Buffer for received messages */ static mds_message_t received; /** * Whether the server is connected to the display */ static int connected = 1; /** * File descriptor for accessing the keyboard LED:s */ static int ledfd = 0; /** * Saved LED states */ static int saved_leds; /** * Saved TTY settings */ static struct termios saved_stty; /** * Save keyboard mode */ static int saved_kbd_mode; /** * Keycode remapping table */ static int* restrict mapping = NULL; /** * The size of `mapping` */ static size_t mapping_size = 0; /** * Scancode buffer */ static int scancode_buf[3] = { 0, 0, 0 }; /** * The number of elements stored in `scancode_buf` */ static int scancode_ptr = 0; /** * Message buffer for `send_key` */ static char key_send_buffer[111]; /** * Message buffer for the main thread */ static char* send_buffer = NULL; /** * The size of `send_buffer` */ static size_t send_buffer_size = 0; /** * The keyboard listener thread */ static pthread_t kbd_thread; /** * Whether `kbd_thread` has started */ static int kbd_thread_started = 0; /** * Mutex that should be used when sending message */ static pthread_mutex_t send_mutex; /** * Mutex that should be used when accessing the keycode map */ static pthread_mutex_t mapping_mutex; /** * This function will be invoked before `initialise_server` (if not re-exec:ing) * or before `unmarshal_server` (if re-exec:ing) * * @return Non-zero on error */ int __attribute__((const)) preinitialise_server(void) { return 0; } /** * This function should initialise the server, * and it not invoked after a re-exec. * * @return Non-zero on error */ int initialise_server(void) { int stage = 0; const char* const message = "Command: intercept\n" "Message ID: 0\n" "Length: 75\n" "\n" "Command: set-keyboard-leds\n" "Command: get-keyboard-leds\n" "Command: keycode-map\n" /* NEXT MESSAGE */ "Command: intercept\n" "Message ID: 1\n" "Modifying: yes\n" "Length: 59\n" "\n" "Command: enumerate-keyboards\n" "Command: keyboard-enumeration\n" /* NEXT MESSAGE */ "Command: new-keyboard\n" "Message ID: 2\n" "Length: 7\n" "\n" KEYBOARD_ID "\n"; fail_if (open_leds() < 0); stage = 1; fail_if (open_input() < 0); stage = 2; fail_if (pthread_mutex_init(&send_mutex, NULL)); stage = 3; fail_if (pthread_mutex_init(&mapping_mutex, NULL)); stage = 4; if (full_send(message, strlen(message))) return 1; fail_if (server_initialised()); stage = 5; fail_if (mds_message_initialise(&received)); return 0; fail: xperror(*argv); if (stage < 5) { if (stage >= 2) close_input(); if (stage >= 1) close_leds(); } if (stage >= 3) pthread_mutex_destroy(&send_mutex); if (stage >= 4) pthread_mutex_destroy(&mapping_mutex); mds_message_destroy(&received); return 1; } /** * This function will be invoked after `initialise_server` (if not re-exec:ing) * or after `unmarshal_server` (if re-exec:ing) * * @return Non-zero on error */ int postinitialise_server(void) { if (connected) return 0; if (reconnect_to_display()) { mds_message_destroy(&received); return 1; } connected = 1; return 0; } /** * This function is called by the parent server process when the * child server process exits, if the server has completed its * initialisation * * @param status The status the child died with */ void fork_cleanup(int status) { (void) status; close_input(); close_leds(); } /** * Calculate the number of bytes that will be stored by `marshal_server` * * On failure the program should `abort()` or exit by other means. * However it should not be possible for this function to fail. * * @return The number of bytes that will be stored by `marshal_server` */ size_t marshal_server_size(void) { size_t rc = 9 * sizeof(int) + sizeof(uint32_t) + sizeof(struct termios); rc += sizeof(size_t) + mapping_size * sizeof(int); rc += mds_message_marshal_size(&received); return rc; } /** * Marshal server implementation specific data into a buffer * * @param state_buf The buffer for the marshalled data * @return Non-zero on error */ int marshal_server(char* state_buf) { buf_set_next(state_buf, int, MDS_KKBD_VARS_VERSION); buf_set_next(state_buf, int, connected); buf_set_next(state_buf, uint32_t, message_id); buf_set_next(state_buf, int, ledfd); buf_set_next(state_buf, int, saved_leds); buf_set_next(state_buf, struct termios, saved_stty); buf_set_next(state_buf, int, saved_kbd_mode); buf_set_next(state_buf, int, scancode_ptr); buf_set_next(state_buf, int, scancode_buf[0]); buf_set_next(state_buf, int, scancode_buf[1]); buf_set_next(state_buf, int, scancode_buf[2]); buf_set_next(state_buf, size_t, mapping_size); if (mapping_size > 0) { memcpy(state_buf, mapping, mapping_size * sizeof(int)); state_buf += mapping_size * sizeof(int) / sizeof(char); } mds_message_marshal(&received, state_buf); mds_message_destroy(&received); free(mapping); return 0; } /** * Unmarshal server implementation specific data and update the servers state accordingly * * On critical failure the program should `abort()` or exit by other means. * That is, do not let `reexec_failure_recover` run successfully, if it unrecoverable * error has occurred or one severe enough that it is better to simply respawn. * * @param state_buf The marshalled data that as not been read already * @return Non-zero on error */ int unmarshal_server(char* state_buf) { /* buf_get_next(state_buf, int, MDS_KKBDOARD_VARS_VERSION); */ buf_next(state_buf, int, 1); buf_get_next(state_buf, int, connected); buf_get_next(state_buf, uint32_t, message_id); buf_get_next(state_buf, int, ledfd); buf_get_next(state_buf, int, saved_leds); buf_get_next(state_buf, struct termios, saved_stty); buf_get_next(state_buf, int, saved_kbd_mode); buf_get_next(state_buf, int, scancode_ptr); buf_get_next(state_buf, int, scancode_buf[0]); buf_get_next(state_buf, int, scancode_buf[1]); buf_get_next(state_buf, int, scancode_buf[2]); buf_get_next(state_buf, size_t, mapping_size); if (mapping_size > 0) { fail_if (xmalloc(mapping, mapping_size, int)); memcpy(mapping, state_buf, mapping_size * sizeof(int)); state_buf += mapping_size * sizeof(int) / sizeof(char); } fail_if (mds_message_unmarshal(&received, state_buf)); return 0; fail: xperror(*argv); mds_message_destroy(&received); free(mapping); abort(); /* We must abort on failure to not risk the keyboard getting stuck and freeze up the computer until someone ssh:es into it and kill the server. */ return -1; } /** * Attempt to recover from a re-exec failure that has been * detected after the server successfully updated it execution image * * @return Non-zero on error */ int __attribute__((const)) reexec_failure_recover(void) { return -1; } /** * Perform the server's mission * * @return Non-zero on error */ int master_loop(void) { int rc = 1, joined = 0, r; void* kbd_ret; fail_if ((errno = pthread_create(&kbd_thread, NULL, keyboard_loop, NULL))); while (!reexecing && !terminating) { if (danger) { danger = 0; free(send_buffer), send_buffer = NULL; send_buffer_size = 0; } if (r = mds_message_read(&received, socket_fd), r == 0) if (r = handle_message(), r == 0) continue; if (r == -2) { eprint("corrupt message received, aborting."); goto done; } else if (errno == EINTR) continue; else fail_if (errno != ECONNRESET); eprint("lost connection to server."); mds_message_destroy(&received); mds_message_initialise(&received); connected = 0; fail_if (reconnect_to_display()); connected = 1; } joined = 1; fail_if ((errno = pthread_join(kbd_thread, &kbd_ret))); rc = kbd_ret == NULL ? 0 : 1; goto done; fail: xperror(*argv); done: pthread_mutex_destroy(&send_mutex); pthread_mutex_destroy(&mapping_mutex); free(send_buffer); if ((!joined) && (errno = pthread_join(kbd_thread, NULL))) xperror(*argv); if (!rc && reexecing) return 0; mds_message_destroy(&received); free(mapping); return rc; } /** * The keyboard listener thread's main function * * @param data Input data * @return Output data */ void* keyboard_loop(void* data) { (void) data; kbd_thread_started = 1; while (!reexecing && !terminating) if (fetch_keys() < 0) fail_if (errno != EINTR); return NULL; fail: xperror(*argv); raise(SIGTERM); return (void*)1024; } /** * Handle the received message * * @return Zero on success, -1 on error */ int handle_message(void) { const char* recv_command = NULL; const char* recv_client_id = "0:0"; const char* recv_message_id = NULL; const char* recv_modify_id = NULL; const char* recv_active = NULL; const char* recv_mask = NULL; const char* recv_keyboard = NULL; const char* recv_action = NULL; size_t i; #define __get_header(storage, header) \ (startswith(received.headers[i], header)) \ storage = received.headers[i] + strlen(header) for (i = 0; i < received.header_count; i++) { if __get_header(recv_command, "Command: "); else if __get_header(recv_client_id, "Client ID: "); else if __get_header(recv_message_id, "Message ID: "); else if __get_header(recv_modify_id, "Modify ID: "); else if __get_header(recv_active, "Active: "); else if __get_header(recv_mask, "Mask: "); else if __get_header(recv_keyboard, "Keyboard: "); else if __get_header(recv_action, "Action: "); } #undef __get_header if (recv_message_id == NULL) { eprint("received message with ID, ignoring, master server is misbehaving."); return 0; } if (recv_command == NULL) return 0; /* How did that get here, not matter, just ignore it? */ if (strequals(recv_command, "enumerate-keyboards")) return handle_enumerate_keyboards(recv_client_id, recv_message_id, recv_modify_id); if (strequals(recv_command, "keyboard-enumeration")) return handle_keyboard_enumeration(recv_modify_id); if (strequals(recv_command, "set-keyboard-leds")) return handle_set_keyboard_leds(recv_active, recv_mask, recv_keyboard); if (strequals(recv_command, "get-keyboard-leds")) return handle_get_keyboard_leds(recv_client_id, recv_message_id, recv_keyboard); if (strequals(recv_command, "keycode-map")) return handle_keycode_map(recv_client_id, recv_message_id, recv_action, recv_keyboard); return 0; /* How did that get here, not matter, just ignore it? */ } /** * Make sure `send_buffer` is large enough * * @param size The size required for the buffer * @return Zero on success, -1 on error */ static int ensure_send_buffer_size(size_t size) { char* old = send_buffer; if (send_buffer_size >= size) return 0; if (xrealloc(send_buffer, size, char)) { send_buffer = old; return -1; } else send_buffer_size = size; return 0; } /** * Handle the received message after it has been * identified to contain `Command: enumerate-keyboards` * * @param recv_client_id The value of the `Client ID`-header, "0:0" if omitted * @param recv_message_id The value of the `Message ID`-header * @param recv_modify_id The value of the `Modify ID`-header, `NULL` if omitted * @return Zero on success, -1 on error */ int handle_enumerate_keyboards(const char* recv_client_id, const char* recv_message_id, const char* recv_modify_id) { uint32_t msgid; size_t n; int r; if (recv_modify_id == NULL) { eprint("did not get add modify ID, ignoring."); return 0; } if (strequals(recv_client_id, "0:0")) { eprint("received information request from an anonymous client, sending non-modifying response."); with_mutex (send_mutex, msgid = message_id; message_id = message_id == UINT32_MAX ? 0 : (message_id + 1); ); if (ensure_send_buffer_size(48 + strlen(recv_modify_id) + 1) < 0) return -1; sprintf(send_buffer, "Modify: no\n" "Modify ID: %s\n" "Message ID: %" PRIu32 "\n" "\n", recv_modify_id, msgid); with_mutex (send_mutex, r = full_send(send_buffer, strlen(send_buffer)); ); return r; } with_mutex (send_mutex, msgid = message_id; message_id = message_id == INT32_MAX ? 0 : (message_id + 1); message_id = message_id == INT32_MAX ? 0 : (message_id + 1); ); n = 176 + 3 * sizeof(size_t) + strlen(KEYBOARD_ID); n += strlen(recv_modify_id) + strlen(recv_message_id); if (ensure_send_buffer_size(n + 1) < 0) return -1; sprintf(send_buffer, "Modify: yes\n" "Modify ID: %s\n" "Message ID: %" PRIu32 "\n" "\n" /* NEXT MESSAGE */ "Command: keyboard-enumeration\n" "To: %s\n" "In response to: %s\n" "Length: %zu\n" "Message ID: %" PRIu32 "\n" "\n" KEYBOARD_ID "\n", recv_modify_id, msgid, recv_message_id, recv_client_id, strlen(KEYBOARD_ID) + 1, msgid + 1); with_mutex (send_mutex, r = full_send(send_buffer, strlen(send_buffer)); ); return r; } /** * Handle the received message after it has been * identified to contain `Command: keyboard-enumeration` * * @param recv_modify_id The value of the `Modify ID`-header, `NULL` if omitted * @return Zero on success, -1 on error */ int handle_keyboard_enumeration(const char* recv_modify_id) { size_t i, off, top, n = 1 + strlen(KEYBOARD_ID "\n") + 3 * sizeof(size_t); uint32_t msgid; int r, have_len = 0; if (recv_modify_id == NULL) { eprint("did not get add modify ID, ignoring."); return 0; } for (i = 0; i < received.header_count; i++) n += strlen(received.headers[i]); n += received.header_count; n += received.payload_size; n += off = 64 + strlen(recv_modify_id) + 3 * sizeof(size_t); if (ensure_send_buffer_size(n + 1) < 0) return -1; with_mutex (send_mutex, msgid = message_id; message_id = message_id == INT32_MAX ? 0 : (message_id + 1); ); n = off; for (i = 0; i < received.header_count; i++) { const char* header = received.headers[i]; if (!have_len && startswith(header, "Length: ")) { have_len = 1; sprintf(send_buffer + n, "Length: %zu\n", strlen(KEYBOARD_ID "\n") + received.payload_size); n += strlen(send_buffer + n); } else { sprintf(send_buffer + n, "%s\n", header); n += strlen(header) + 1; } } memcpy(send_buffer + n, received.payload, received.payload_size * sizeof(char)); n += received.payload_size; n -= off; sprintf(send_buffer, "Modify ID: %s\n" "Message ID: %" PRIu32 "\n" "Length: %zu\n", recv_modify_id, msgid, n); top = strlen(send_buffer) + 1; send_buffer[top - 1] = '\n'; off -= top; n += top; memmove(send_buffer + off, send_buffer, top * sizeof(char)); with_mutex (send_mutex, r = full_send(send_buffer + off, n); ); return r; } /** * Handle the received message after it has been * identified to contain `Command: set-keyboard-leds` * * @param recv_active The value of the `Active`-header, `NULL` if omitted * @param recv_mask The value of the `Mask`-header, `NULL` if omitted * @param recv_keyboard The value of the `Keyboard`-header, `NULL` if omitted * @return Zero on success, -1 on error */ int handle_set_keyboard_leds(const char* recv_active, const char* recv_mask, const char* recv_keyboard) { int active = 0; int mask = 0; int current; const char* begin; const char* end; if ((recv_keyboard != NULL) && !strequals(recv_keyboard, KEYBOARD_ID)) return 0; if (recv_active == NULL) { eprint("received LED writing request without active header, ignoring."); return 0; } if (recv_mask == NULL) { eprint("received LED writing request without mask header, ignoring."); return 0; } current = get_leds(); if (current < 0) { xperror(*argv); return 0; /* Not fatal */ } #define __test(have, want) (startswith(have, want " ") || strequals(have, want)) for (begin = end = recv_active; end != NULL;) { end = strchr(begin, ' '); if (__test(begin, "num")) active |= LED_NUM_LOCK; else if (__test(begin, "caps")) active |= LED_CAPS_LOCK; else if (__test(begin, "scroll")) active |= LED_SCRL_LOCK; #ifdef LED_COMPOSE else if (__test(begin, "compose")) active |= LED_COMPOSE; #endif begin = end + 1; } for (begin = end = recv_mask; end != NULL;) { end = strchr(begin, ' '); if (__test(begin, "num")) mask |= LED_NUM_LOCK; else if (__test(begin, "caps")) mask |= LED_CAPS_LOCK; else if (__test(begin, "scroll")) mask |= LED_SCRL_LOCK; #ifdef LED_COMPOSE else if (__test(begin, "compose")) mask |= LED_COMPOSE; #endif begin = end + 1; } #undef __test current = (active & mask) | ((current ^ active) & ~mask); if (set_leds(current) < 0) { xperror(*argv); /* Not fatal */ return 0; } return 0; } /** * Handle the received message after it has been * identified to contain `Command: get-keyboard-leds` * * @param recv_client_id The value of the `Client ID`-header, "0:0" if omitted * @param recv_message_id The value of the `Message ID`-header * @param recv_keyboard The value of the `Keyboard`-header, `NULL` if omitted * @return Zero on success, -1 on error */ int handle_get_keyboard_leds(const char* recv_client_id, const char* recv_message_id, const char* recv_keyboard) { uint32_t msgid; size_t n; int r, leds; if ((recv_keyboard != NULL) && !strequals(recv_keyboard, KEYBOARD_ID)) return 0; if (recv_keyboard == NULL) { eprint("received LED reading request but no specified keyboard, ignoring."); return 0; } if (strequals(recv_client_id, "0:0")) { eprint("received information request from an anonymous client, ignoring."); return 0; } leds = get_leds(); if (leds < 0) { int error = errno; xperror(*argv); send_errno(error, recv_client_id, recv_message_id); return -1; } with_mutex (send_mutex, msgid = message_id; message_id = message_id == INT32_MAX ? 0 : (message_id + 1); ); n = 95 + 3 * sizeof(size_t) + 2 * strlen(PRESENT_LEDS); n += strlen(recv_client_id) + strlen(recv_message_id); if (ensure_send_buffer_size(n + 1) < 0) return -1; sprintf(send_buffer, "To: %s\n" "In response to: %s\n" "Message ID: %" PRIu32 "\n" "Active:%s%s%s%s%s\n" "Present: " PRESENT_LEDS "\n" "\n", recv_client_id, recv_message_id, msgid, (leds & LED_NUM_LOCK) ? " num" : "", (leds & LED_CAPS_LOCK) ? " caps" : "", (leds & LED_SCRL_LOCK) ? " scroll" : "", #ifdef LED_COMPOSE (leds & LED_COMPOSE) ? " compose" : #endif "", leds == 0 ? " none" : "" ); with_mutex (send_mutex, r = full_send(send_buffer, strlen(send_buffer)); ); return r; } /** * Parse a keycode rampping line * * @param begin The beginning of the line * @param end The end of the line, `NULL` if it is not terminated by a new line * @param n The size of the table from the position of `begin` * @param in Output parameter for the keycode that should be remapped * @param out Output parameter for the keycode's new mapping * @return -1 on error, 1 if parsed, 0 if the line is empty */ static int parse_remap_line(char* begin, char* end, size_t n, int* restrict in, int* restrict out) { static char buf[3 * sizeof(int) + 1]; size_t len = end == NULL ? n : (size_t)(end - begin); char* delimiter = memchr(begin, ' ', len); if (len == 0) return 0; if (delimiter == NULL) { *in = -1, *out = -1; return -1; } *delimiter++ = '\0'; *in = atoi(begin); if (end == NULL) { snprintf(buf, sizeof(buf) / sizeof(char), "%.*s", (int)(len - (size_t)(delimiter - begin)), delimiter); *out = atoi(buf); } else { *end = '\0'; *out = atoi(delimiter); } return 1; } /** * Add a mapping to the keycode mapping table * * @param in The keycode to remap * @parma out The keycode's new mapping * @return Zero on success, -1 on error */ static int add_mapping(int in, int out) { size_t n = ((size_t)in) + 1; int* old; if (n > mapping_size) { if (in == out) return 0; if (old = mapping, xrealloc(mapping, n, int)) { mapping = old; return -1; } for (; mapping_size < n; mapping_size++) mapping[mapping_size] = (int)mapping_size; } mapping[in] = out; return 0; } /** * Change the keycode mapping * * @param table The remapping table as described by the `Command: keycode-map` protocol * @param n The size of `table` * @return Zero on success, -1 on error */ static int remap(char* table, size_t n) { char* begin = table; int greatest_remap = -1; int greatest_reset = -1; for (;;) { char* end = memchr(begin, '\n', n); int in, out; if (!parse_remap_line(begin, end, n, &in, &out)) goto next; if ((in < 0) || (out < 0) || ((in | out) >= 0x4000)) { eprint("received malformated remapping table."); goto next; } if (in != out) greatest_remap = max(greatest_remap, in); else greatest_reset = max(greatest_reset, in); if (add_mapping(in, out) < 0) return -1; next: if (end == NULL) break; end++; n -= (size_t)(end - begin); begin = end; } if ((greatest_reset > greatest_remap) && (((((size_t)greatest_remap) + 1) >> 1) < mapping_size)) shrink_map(); return 0; } /** * Responde to a keycode mapping query * * @param recv_client_id The value of the `Client ID`-header * @param recv_message_id The value of the `Message ID`-header * @return Zero on success, -1 on error */ static int mapping_query(const char* recv_client_id, const char* recv_message_id) { size_t top = 64 + 3 * sizeof(size_t), n = 0, off, i; int greatest = (int)mapping_size, r; uint32_t msgid; for (i = 0; i < mapping_size; i++) if (mapping[i] != (int)i) { greatest = max(greatest, mapping[i]); n++; } n *= 3 + (size_t)(greatest > 0x00FF ? 5 : 3); if (ensure_send_buffer_size(top + n + 2) < 0) return -1; with_mutex (send_mutex, msgid = message_id; message_id = message_id == INT32_MAX ? 0 : (message_id + 1); ); off = top + 1; for (i = 0; i < mapping_size; i++) if (mapping[i] != (int)i) { sprintf(send_buffer + off, "%i %i\n", i, mapping[i]); off += strlen(send_buffer + off); } n = (size_t)(off - (top + 1)); sprintf(send_buffer, "To: %s\n" "In response to: %s\n" "Message ID: %" PRIu32 "\n" "Length: %zu\n" "\n", recv_client_id, recv_message_id, msgid, n); off = top + 1; off -= top = strlen(send_buffer); memmove(send_buffer + off, send_buffer, top * sizeof(char)); with_mutex (send_mutex, r = full_send(send_buffer + off, top + n); ); return r; } /** * Handle the received message after it has been * identified to contain `Command: keycode-map` * * @param recv_client_id The value of the `Client ID`-header, "0:0" if omitted * @param recv_message_id The value of the `Message ID`-header * @param recv_action The value of the `Action`-header, `NULL` if omitted * @param recv_keyboard The value of the `Keyboard`-header, `NULL` if omitted * @return Zero on success, -1 on error */ int handle_keycode_map(const char* recv_client_id, const char* recv_message_id, const char* recv_action, const char* recv_keyboard) { int r = 0; if ((recv_keyboard != NULL) && !strequals(recv_keyboard, KEYBOARD_ID)) return 0; if (recv_action == NULL) eprint("received keycode map request but without any action, ignoring."); else if (strequals(recv_action, "remap")) { if (received.payload_size == 0) { eprint("received keycode remap request without a payload, ignoring."); return 0; } with_mutex (mapping_mutex, r = remap(received.payload, received.payload_size); ); } else if (strequals(recv_action, "reset")) { with_mutex (mapping_mutex, free(mapping); mapping_size = 0; ); } else if (strequals(recv_action, "query")) { if (strequals(recv_client_id, "0:0")) { eprint("received information request from an anonymous client, ignoring."); return 0; } r = mapping_query(recv_client_id, recv_message_id); } else eprint("received keycode map request with invalid action, ignoring."); return r; } /** * Send a singal to all threads except the current thread * * @param signo The signal */ void signal_all(int signo) { pthread_t current_thread = pthread_self(); if (pthread_equal(current_thread, master_thread) == 0) pthread_kill(master_thread, signo); if (kbd_thread_started) if (pthread_equal(current_thread, kbd_thread) == 0) pthread_kill(kbd_thread, signo); } /** * Send a full message even if interrupted * * @param message The message to send * @param length The length of the message * @return Non-zero on success */ int full_send(const char* message, size_t length) { size_t sent; while (length > 0) { sent = send_message(socket_fd, message, length); if (sent > length) { eprint("Sent more of a message than exists in the message, aborting."); return -1; } else if ((sent < length) && (errno != EINTR)) { xperror(*argv); return -1; } message += sent; length -= sent; } return 0; } /** * Acquire access of the keyboard's LED:s * * @return Zero on success, -1 on error */ int open_leds(void) { #ifdef __sparc__ if ((ledfd = open(SPARC_KBD, O_RDONLY)) < 0) return -1; if (ioctl(ledfd, GET_LED, &saved_leds) < 0) { close(ledfd); return -1; } return 0; #else return ioctl(ledfd, GET_LED, &saved_leds); #endif } /** * Release access of the keyboard's LED:s */ void close_leds(void) { if (ioctl(ledfd, SET_LED, saved_leds) < 0) xperror(*argv); #ifdef __sparc__ close(ledfd); #endif } /** * Get active LED:s on the keyboard * * @return Active LED:s, -1 on error */ int get_leds(void) { int leds; if (ioctl(ledfd, GET_LED, &leds) < 0) return -1; #ifdef __sparc__ leds &= 15; #endif return leds; } /** * Set active LED:s on the keyboard * * @param leds Active LED:s * @return Zero on success, -1 on error */ int set_leds(int leds) { return ioctl(ledfd, SET_LED, leds); } /** * Acquire access of keyboard input * * @return Zero on success, -1 on error */ int open_input(void) { struct termios stty; if (tcgetattr(STDIN_FILENO, &saved_stty) < 0) return -1; stty = saved_stty; stty.c_lflag &= (tcflag_t)~(ECHO | ICANON | ISIG); stty.c_iflag = 0; if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &stty) < 0) return -1; /* K_MEDIUMRAW: utilise keyboard drivers, but not layout */ if ((ioctl(STDIN_FILENO, KDGKBMODE, &saved_kbd_mode) < 0) || (ioctl(STDIN_FILENO, KDSKBMODE, K_MEDIUMRAW) < 0)) { xperror(*argv); return tcsetattr(STDIN_FILENO, TCSAFLUSH, &saved_stty); } return 0; } /** * Release access of keyboard input */ void close_input(void) { if (ioctl(STDIN_FILENO, KDSKBMODE, saved_kbd_mode) < 0) xperror(*argv); if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &saved_stty) < 0) xperror(*argv); } /** * Broadcast a keyboard input event * * @param scancode The scancode * @param trio Whether the scancode has three integers rather than one * @return Zero on success, -1 on error */ int send_key(int* restrict scancode, int trio) { int r, keycode, released = (scancode[0] & 0x80) == 0x80; uint32_t msgid; scancode[0] &= 0x7F; if (trio) { keycode = (scancode[1] &= 0x7F) << 7; keycode |= (scancode[2] &= 0x7F); } else keycode = scancode[0]; with_mutex (mapping_mutex, if ((size_t)keycode < mapping_size) keycode = mapping[keycode]; ); with_mutex (send_mutex, msgid = message_id; message_id = message_id == INT32_MAX ? 0 : (message_id + 1); ); if (trio) sprintf(key_send_buffer, "Command: key-sent\n" "Scancode: %i %i %i\n" "Keycode: %i\n" "Released: %s\n" "Keyboard: " KEYBOARD_ID "\n" "Message ID: %" PRIu32 "\n" "\n", scancode[0], scancode[1], scancode[2], keycode, released ? "yes" : "no", msgid); else sprintf(key_send_buffer, "Command: key-sent\n" "Scancode: %i\n" "Keycode: %i\n" "Released: %s\n" "Keyboard: " KEYBOARD_ID "\n" "Message ID: %" PRIu32 "\n" "\n", scancode[0], keycode, released ? "yes" : "no", msgid); with_mutex (send_mutex, r = full_send(key_send_buffer, strlen(key_send_buffer)); ); return r; } /** * Fetch and broadcast keys until interrupted * * @return Zero on success, -1 on error */ int fetch_keys(void) { #ifdef DEBUG int consecutive_escapes = 0; #endif int c; ssize_t r; for (;;) { r = read(STDIN_FILENO, &c, sizeof(int)); if (r <= 0) { if (r == 0) { raise(SIGTERM); errno = 0; } break; } #ifdef DEBUG if ((c & 0x7F) == 1) /* Exit with ESCAPE, ESCAPE, ESCAPE */ { if (++consecutive_escapes >= 2 * 3) { raise(SIGTERM); errno = 0; break; } } else consecutive_escapes = 0; #endif redo: scancode_buf[scancode_ptr] = c; if (scancode_ptr == 0) { if ((c & 0x7F) == 0) scancode_ptr++; else send_key(scancode_buf, 0); } else if (scancode_ptr == 1) { if ((c & 0x80) == 0) { scancode_ptr = 0; goto redo; } scancode_ptr++; } else { scancode_ptr = 0; if ((c & 0x80) == 0) { send_key(scancode_buf + 1, 0); goto redo; } send_key(scancode_buf, 1); } } return errno == 0 ? 0 : -1; } /** * Send a response with an error number * * @param error The error number * @param recv_client_id The client's ID * @param recv_message_id The message ID of the message the client sent * @return Zero on success, -1 on error */ int send_errno(int error, const char* recv_client_id, const char* recv_message_id) { size_t n = 79 + strlen(recv_client_id) + strlen(recv_message_id) + 3 * sizeof(int); int r; if (ensure_send_buffer_size(n + 1) < 0) return -1; with_mutex (send_mutex, sprintf(send_buffer, "Command: error\n" "To: %s\n" "In response to: %s\n" "Message ID: %" PRIu32 "\n" "Error: %i\n" "\n", recv_client_id, recv_message_id, message_id, error); message_id = message_id == INT32_MAX ? 0 : (message_id + 1); r = full_send(send_buffer, strlen(send_buffer)); ); return r; } /** * Attempt to shrink `mapping` */ void shrink_map(void) { size_t i, greatest_mapping = 0; int* old; for (i = mapping_size; i > 0; i--) if (mapping[i] != (int)i) { greatest_mapping = i; break; } if (greatest_mapping == 0) { if (mapping[0] == 0) { free(mapping); mapping_size = 0; } } else if (greatest_mapping + 1 < mapping_size) { if (old = mapping, xrealloc(mapping, greatest_mapping + 1, int)) { mapping = old; xperror(*argv); } else mapping_size = greatest_mapping + 1; } }