/* * vim:ts=4:sw=4:expandtab * * i3 - an improved dynamic tiling window manager * © 2009 Michael Stapelberg and contributors (see also: LICENSE) * * util.c: Utility functions, which can be useful everywhere within i3 (see * also libi3). * */ #include "all.h" #include #include #include #include #include #include #include #if defined(__OpenBSD__) #include #endif int min(int a, int b) { return (a < b ? a : b); } int max(int a, int b) { return (a > b ? a : b); } bool rect_contains(Rect rect, uint32_t x, uint32_t y) { return (x >= rect.x && x <= (rect.x + rect.width) && y >= rect.y && y <= (rect.y + rect.height)); } Rect rect_add(Rect a, Rect b) { return (Rect){a.x + b.x, a.y + b.y, a.width + b.width, a.height + b.height}; } Rect rect_sub(Rect a, Rect b) { return (Rect){a.x - b.x, a.y - b.y, a.width - b.width, a.height - b.height}; } Rect rect_sanitize_dimensions(Rect rect) { rect.width = (int32_t)rect.width <= 0 ? 1 : rect.width; rect.height = (int32_t)rect.height <= 0 ? 1 : rect.height; return rect; } bool rect_equals(Rect a, Rect b) { return a.x == b.x && a.y == b.y && a.width == b.width && a.height == b.height; } /* * Returns true if the name consists of only digits. * */ __attribute__((pure)) bool name_is_digits(const char *name) { /* positive integers and zero are interpreted as numbers */ for (size_t i = 0; i < strlen(name); i++) if (!isdigit(name[i])) return false; return true; } /* * Set 'out' to the layout_t value for the given layout. The function * returns true on success or false if the passed string is not a valid * layout name. * */ bool layout_from_name(const char *layout_str, layout_t *out) { if (strcmp(layout_str, "default") == 0) { *out = L_DEFAULT; return true; } else if (strcasecmp(layout_str, "stacked") == 0 || strcasecmp(layout_str, "stacking") == 0) { *out = L_STACKED; return true; } else if (strcasecmp(layout_str, "tabbed") == 0) { *out = L_TABBED; return true; } else if (strcasecmp(layout_str, "splitv") == 0) { *out = L_SPLITV; return true; } else if (strcasecmp(layout_str, "splith") == 0) { *out = L_SPLITH; return true; } return false; } /* * Parses the workspace name as a number. Returns -1 if the workspace should be * interpreted as a "named workspace". * */ int ws_name_to_number(const char *name) { /* positive integers and zero are interpreted as numbers */ char *endptr = NULL; errno = 0; long long parsed_num = strtoll(name, &endptr, 10); if (errno != 0 || parsed_num > INT32_MAX || parsed_num < 0 || endptr == name) { parsed_num = -1; } return parsed_num; } /* * Updates *destination with new_value and returns true if it was changed or false * if it was the same * */ bool update_if_necessary(uint32_t *destination, const uint32_t new_value) { uint32_t old_value = *destination; return ((*destination = new_value) != old_value); } /* * exec()s an i3 utility, for example the config file migration script or * i3-nagbar. This function first searches $PATH for the given utility named, * then falls back to the dirname() of the i3 executable path and then falls * back to the dirname() of the target of /proc/self/exe (on linux). * * This function should be called after fork()ing. * * The first argument of the given argv vector will be overwritten with the * executable name, so pass NULL. * * If the utility cannot be found in any of these locations, it exits with * return code 2. * */ void exec_i3_utility(char *name, char *argv[]) { /* start the migration script, search PATH first */ char *migratepath = name; argv[0] = migratepath; execvp(migratepath, argv); /* if the script is not in path, maybe the user installed to a strange * location and runs the i3 binary with an absolute path. We use * argv[0]’s dirname */ char *pathbuf = sstrdup(start_argv[0]); char *dir = dirname(pathbuf); sasprintf(&migratepath, "%s/%s", dir, name); argv[0] = migratepath; execvp(migratepath, argv); #if defined(__linux__) /* on linux, we have one more fall-back: dirname(/proc/self/exe) */ char buffer[BUFSIZ]; if (readlink("/proc/self/exe", buffer, BUFSIZ) == -1) { warn("could not read /proc/self/exe"); _exit(EXIT_FAILURE); } dir = dirname(buffer); sasprintf(&migratepath, "%s/%s", dir, name); argv[0] = migratepath; execvp(migratepath, argv); #endif warn("Could not start %s", name); _exit(2); } /* * Checks if the given path exists by calling stat(). * */ bool path_exists(const char *path) { struct stat buf; return (stat(path, &buf) == 0); } /* * Goes through the list of arguments (for exec()) and add/replace the given option, * including the option name, its argument, and the option character. */ static char **add_argument(char **original, char *opt_char, char *opt_arg, char *opt_name) { int num_args; for (num_args = 0; original[num_args] != NULL; num_args++) ; char **result = scalloc(num_args + 3, sizeof(char *)); /* copy the arguments, but skip the ones we'll replace */ int write_index = 0; bool skip_next = false; for (int i = 0; i < num_args; ++i) { if (skip_next) { skip_next = false; continue; } if (!strcmp(original[i], opt_char) || (opt_name && !strcmp(original[i], opt_name))) { if (opt_arg) skip_next = true; continue; } result[write_index++] = original[i]; } /* add the arguments we'll replace */ result[write_index++] = opt_char; result[write_index] = opt_arg; return result; } #define y(x, ...) yajl_gen_##x(gen, ##__VA_ARGS__) #define ystr(str) yajl_gen_string(gen, (unsigned char *)str, strlen(str)) static char *store_restart_layout(void) { setlocale(LC_NUMERIC, "C"); yajl_gen gen = yajl_gen_alloc(NULL); dump_node(gen, croot, true); setlocale(LC_NUMERIC, ""); const unsigned char *payload; size_t length; y(get_buf, &payload, &length); /* create a temporary file if one hasn't been specified, or just * resolve the tildes in the specified path */ char *filename; if (config.restart_state_path == NULL) { filename = get_process_filename("restart-state"); if (!filename) return NULL; } else { filename = resolve_tilde(config.restart_state_path); } /* create the directory, it could have been cleaned up before restarting or * may not exist at all in case it was user-specified. */ char *filenamecopy = sstrdup(filename); char *base = dirname(filenamecopy); DLOG("Creating \"%s\" for storing the restart layout\n", base); if (mkdirp(base, DEFAULT_DIR_MODE) != 0) ELOG("Could not create \"%s\" for storing the restart layout, layout will be lost.\n", base); free(filenamecopy); int fd = open(filename, O_WRONLY | O_CREAT | O_TRUNC, S_IRUSR | S_IWUSR); if (fd == -1) { perror("open()"); free(filename); return NULL; } if (writeall(fd, payload, length) == -1) { ELOG("Could not write restart layout to \"%s\", layout will be lost: %s\n", filename, strerror(errno)); free(filename); close(fd); return NULL; } close(fd); if (length > 0) { DLOG("layout: %.*s\n", (int)length, payload); } y(free); return filename; } /* * Restart i3 in-place * appends -a to argument list to disable autostart * */ void i3_restart(bool forget_layout) { char *restart_filename = forget_layout ? NULL : store_restart_layout(); kill_nagbar(&config_error_nagbar_pid, true); kill_nagbar(&command_error_nagbar_pid, true); restore_geometry(); ipc_shutdown(SHUTDOWN_REASON_RESTART, -1); LOG("restarting \"%s\"...\n", start_argv[0]); /* make sure -a is in the argument list or add it */ start_argv = add_argument(start_argv, "-a", NULL, NULL); /* make debuglog-on persist */ if (get_debug_logging()) { start_argv = add_argument(start_argv, "-d", "all", NULL); } /* replace -r so that the layout is restored */ if (restart_filename != NULL) { start_argv = add_argument(start_argv, "--restart", restart_filename, "-r"); } execvp(start_argv[0], start_argv); /* not reached */ } /* * Escapes the given string if a pango font is currently used. * If the string has to be escaped, the input string will be free'd. * */ char *pango_escape_markup(char *input) { if (!font_is_pango()) return input; char *escaped = g_markup_escape_text(input, -1); FREE(input); return escaped; } /* * Handler which will be called when we get a SIGCHLD for the nagbar, meaning * it exited (or could not be started, depending on the exit code). * */ static void nagbar_exited(EV_P_ ev_child *watcher, int revents) { ev_child_stop(EV_A_ watcher); if (!WIFEXITED(watcher->rstatus)) { ELOG("ERROR: i3-nagbar did not exit normally.\n"); return; } int exitcode = WEXITSTATUS(watcher->rstatus); DLOG("i3-nagbar process exited with status %d\n", exitcode); if (exitcode == 2) { ELOG("ERROR: i3-nagbar could not be found. Is it correctly installed on your system?\n"); } *((pid_t *)watcher->data) = -1; } /* * Cleanup handler. Will be called when i3 exits. Kills i3-nagbar with signal * SIGKILL (9) to make sure there are no left-over i3-nagbar processes. * */ static void nagbar_cleanup(EV_P_ ev_cleanup *watcher, int revent) { pid_t *nagbar_pid = (pid_t *)watcher->data; if (*nagbar_pid != -1) { LOG("Sending SIGKILL (%d) to i3-nagbar with PID %d\n", SIGKILL, *nagbar_pid); kill(*nagbar_pid, SIGKILL); } } /* * Starts an i3-nagbar instance with the given parameters. Takes care of * handling SIGCHLD and killing i3-nagbar when i3 exits. * * The resulting PID will be stored in *nagbar_pid and can be used with * kill_nagbar() to kill the bar later on. * */ void start_nagbar(pid_t *nagbar_pid, char *argv[]) { if (*nagbar_pid != -1) { DLOG("i3-nagbar already running (PID %d), not starting again.\n", *nagbar_pid); return; } *nagbar_pid = fork(); if (*nagbar_pid == -1) { warn("Could not fork()"); return; } /* child */ if (*nagbar_pid == 0) exec_i3_utility("i3-nagbar", argv); DLOG("Starting i3-nagbar with PID %d\n", *nagbar_pid); /* parent */ /* install a child watcher */ ev_child *child = smalloc(sizeof(ev_child)); ev_child_init(child, &nagbar_exited, *nagbar_pid, 0); child->data = nagbar_pid; ev_child_start(main_loop, child); /* install a cleanup watcher (will be called when i3 exits and i3-nagbar is * still running) */ ev_cleanup *cleanup = smalloc(sizeof(ev_cleanup)); ev_cleanup_init(cleanup, nagbar_cleanup); cleanup->data = nagbar_pid; ev_cleanup_start(main_loop, cleanup); } /* * Kills the i3-nagbar process, if *nagbar_pid != -1. * * If wait_for_it is set (restarting i3), this function will waitpid(), * otherwise, ev is assumed to handle it (reloading). * */ void kill_nagbar(pid_t *nagbar_pid, bool wait_for_it) { if (*nagbar_pid == -1) return; if (kill(*nagbar_pid, SIGTERM) == -1) warn("kill(configerror_nagbar) failed"); if (!wait_for_it) return; /* When restarting, we don’t enter the ev main loop anymore and after the * exec(), our old pid is no longer watched. So, ev won’t handle SIGCHLD * for us and we would end up with a process. Therefore we * waitpid() here. */ waitpid(*nagbar_pid, NULL, 0); } /* * Converts a string into a long using strtol(). * This is a convenience wrapper checking the parsing result. It returns true * if the number could be parsed. */ bool parse_long(const char *str, long *out, int base) { char *end = NULL; long result = strtol(str, &end, base); if (result == LONG_MIN || result == LONG_MAX || result < 0 || (end != NULL && *end != '\0')) { *out = result; return false; } *out = result; return true; } /* * Slurp reads path in its entirety into buf, returning the length of the file * or -1 if the file could not be read. buf is set to a buffer of appropriate * size, or NULL if -1 is returned. * */ ssize_t slurp(const char *path, char **buf) { FILE *f; if ((f = fopen(path, "r")) == NULL) { ELOG("Cannot open file \"%s\": %s\n", path, strerror(errno)); return -1; } struct stat stbuf; if (fstat(fileno(f), &stbuf) != 0) { ELOG("Cannot fstat() \"%s\": %s\n", path, strerror(errno)); fclose(f); return -1; } /* Allocate one extra NUL byte to make the buffer usable with C string * functions. yajl doesn’t need this, but this makes slurp safer. */ *buf = scalloc(stbuf.st_size + 1, 1); size_t n = fread(*buf, 1, stbuf.st_size, f); fclose(f); if ((ssize_t)n != stbuf.st_size) { ELOG("File \"%s\" could not be read entirely: got %zd, want %" PRIi64 "\n", path, n, (int64_t)stbuf.st_size); FREE(*buf); return -1; } return (ssize_t)n; } /* * Convert a direction to its corresponding orientation. * */ orientation_t orientation_from_direction(direction_t direction) { return (direction == D_LEFT || direction == D_RIGHT) ? HORIZ : VERT; } /* * Convert a direction to its corresponding position. * */ position_t position_from_direction(direction_t direction) { return (direction == D_LEFT || direction == D_UP) ? BEFORE : AFTER; } /* * Convert orientation and position to the corresponding direction. * */ direction_t direction_from_orientation_position(orientation_t orientation, position_t position) { if (orientation == HORIZ) { return position == BEFORE ? D_LEFT : D_RIGHT; } else { return position == BEFORE ? D_UP : D_DOWN; } }