#define _POSIX_C_SOURCE 200809 #include #include #include #include #include #include #include #include "sway/commands.h" #include "sway/config.h" #include "sway/criteria.h" #include "sway/security.h" #include "sway/input/input-manager.h" #include "sway/input/seat.h" #include "sway/tree/view.h" #include "stringop.h" #include "log.h" // Returns error object, or NULL if check succeeds. struct cmd_results *checkarg(int argc, const char *name, enum expected_args type, int val) { struct cmd_results *error = NULL; switch (type) { case EXPECTED_AT_LEAST: if (argc >= val) { return NULL; } error = cmd_results_new(CMD_INVALID, name, "Invalid %s command " "(expected at least %d argument%s, got %d)", name, val, (char*[2]){"s", ""}[argc==1], argc); break; case EXPECTED_LESS_THAN: if (argc < val) { return NULL; }; error = cmd_results_new(CMD_INVALID, name, "Invalid %s command " "(expected less than %d argument%s, got %d)", name, val, (char*[2]){"s", ""}[argc==1], argc); break; case EXPECTED_EQUAL_TO: if (argc == val) { return NULL; }; error = cmd_results_new(CMD_INVALID, name, "Invalid %s command " "(expected %d arguments, got %d)", name, val, argc); break; } return error; } void apply_seat_config(struct seat_config *seat_config) { int i; i = list_seq_find(config->seat_configs, seat_name_cmp, seat_config->name); if (i >= 0) { // merge existing config struct seat_config *sc = config->seat_configs->items[i]; merge_seat_config(sc, seat_config); free_seat_config(seat_config); seat_config = sc; } else { list_add(config->seat_configs, seat_config); } input_manager_apply_seat_config(seat_config); } /* Keep alphabetized */ static struct cmd_handler handlers[] = { { "assign", cmd_assign }, { "bar", cmd_bar }, { "bindcode", cmd_bindcode }, { "bindsym", cmd_bindsym }, { "client.background", cmd_client_noop }, { "client.focused", cmd_client_focused }, { "client.focused_inactive", cmd_client_focused_inactive }, { "client.placeholder", cmd_client_noop }, { "client.unfocused", cmd_client_unfocused }, { "client.urgent", cmd_client_urgent }, { "default_border", cmd_default_border }, { "default_floating_border", cmd_default_floating_border }, { "exec", cmd_exec }, { "exec_always", cmd_exec_always }, { "floating_maximum_size", cmd_floating_maximum_size }, { "floating_minimum_size", cmd_floating_minimum_size }, { "floating_modifier", cmd_floating_modifier }, { "focus", cmd_focus }, { "focus_follows_mouse", cmd_focus_follows_mouse }, { "focus_on_window_activation", cmd_focus_on_window_activation }, { "focus_wrapping", cmd_focus_wrapping }, { "font", cmd_font }, { "for_window", cmd_for_window }, { "force_display_urgency_hint", cmd_force_display_urgency_hint }, { "force_focus_wrapping", cmd_force_focus_wrapping }, { "fullscreen", cmd_fullscreen }, { "gaps", cmd_gaps }, { "hide_edge_borders", cmd_hide_edge_borders }, { "include", cmd_include }, { "input", cmd_input }, { "mode", cmd_mode }, { "mouse_warping", cmd_mouse_warping }, { "new_float", cmd_default_floating_border }, { "new_window", cmd_default_border }, { "no_focus", cmd_no_focus }, { "output", cmd_output }, { "popup_during_fullscreen", cmd_popup_during_fullscreen }, { "seat", cmd_seat }, { "set", cmd_set }, { "show_marks", cmd_show_marks }, { "smart_borders", cmd_smart_borders }, { "smart_gaps", cmd_smart_gaps }, { "tiling_drag", cmd_tiling_drag }, { "workspace", cmd_workspace }, { "workspace_auto_back_and_forth", cmd_ws_auto_back_and_forth }, }; /* Config-time only commands. Keep alphabetized */ static struct cmd_handler config_handlers[] = { { "default_orientation", cmd_default_orientation }, { "swaybg_command", cmd_swaybg_command }, { "swaynag_command", cmd_swaynag_command }, { "workspace_layout", cmd_workspace_layout }, }; /* Runtime-only commands. Keep alphabetized */ static struct cmd_handler command_handlers[] = { { "border", cmd_border }, { "create_output", cmd_create_output }, { "exit", cmd_exit }, { "floating", cmd_floating }, { "fullscreen", cmd_fullscreen }, { "kill", cmd_kill }, { "layout", cmd_layout }, { "mark", cmd_mark }, { "move", cmd_move }, { "nop", cmd_nop }, { "opacity", cmd_opacity }, { "reload", cmd_reload }, { "rename", cmd_rename }, { "resize", cmd_resize }, { "scratchpad", cmd_scratchpad }, { "split", cmd_split }, { "splith", cmd_splith }, { "splitt", cmd_splitt }, { "splitv", cmd_splitv }, { "sticky", cmd_sticky }, { "swap", cmd_swap }, { "title_format", cmd_title_format }, { "unmark", cmd_unmark }, { "urgent", cmd_urgent }, }; static int handler_compare(const void *_a, const void *_b) { const struct cmd_handler *a = _a; const struct cmd_handler *b = _b; return strcasecmp(a->command, b->command); } struct cmd_handler *find_handler(char *line, struct cmd_handler *cmd_handlers, int handlers_size) { struct cmd_handler d = { .command=line }; struct cmd_handler *res = NULL; wlr_log(WLR_DEBUG, "find_handler(%s)", line); bool config_loading = config->reading || !config->active; if (!config_loading) { res = bsearch(&d, command_handlers, sizeof(command_handlers) / sizeof(struct cmd_handler), sizeof(struct cmd_handler), handler_compare); if (res) { return res; } } if (config->reading) { res = bsearch(&d, config_handlers, sizeof(config_handlers) / sizeof(struct cmd_handler), sizeof(struct cmd_handler), handler_compare); if (res) { return res; } } if (!cmd_handlers) { cmd_handlers = handlers; handlers_size = sizeof(handlers); } res = bsearch(&d, cmd_handlers, handlers_size / sizeof(struct cmd_handler), sizeof(struct cmd_handler), handler_compare); return res; } static void set_config_node(struct sway_node *node) { config->handler_context.node = node; config->handler_context.container = NULL; config->handler_context.workspace = NULL; if (node == NULL) { return; } switch (node->type) { case N_CONTAINER: config->handler_context.container = node->sway_container; config->handler_context.workspace = node->sway_container->workspace; break; case N_WORKSPACE: config->handler_context.workspace = node->sway_workspace; break; case N_ROOT: case N_OUTPUT: break; } } struct cmd_results *execute_command(char *_exec, struct sway_seat *seat, struct sway_container *con) { // Even though this function will process multiple commands we will only // return the last error, if any (for now). (Since we have access to an // error string we could e.g. concatenate all errors there.) struct cmd_results *results = NULL; char *exec = strdup(_exec); char *head = exec; char *cmdlist; char *cmd; list_t *views = NULL; if (seat == NULL) { // passing a NULL seat means we just pick the default seat seat = input_manager_get_default_seat(); if (!sway_assert(seat, "could not find a seat to run the command on")) { return NULL; } } // This is the container or workspace which this command will run on. // Ignored if the command string contains criteria. struct sway_node *node; if (con) { node = &con->node; } else { node = seat_get_focus_inactive(seat, &root->node); } config->handler_context.seat = seat; head = exec; do { // Extract criteria (valid for this command list only). config->handler_context.using_criteria = false; if (*head == '[') { char *error = NULL; struct criteria *criteria = criteria_parse(head, &error); if (!criteria) { results = cmd_results_new(CMD_INVALID, head, "%s", error); free(error); goto cleanup; } views = criteria_get_views(criteria); head += strlen(criteria->raw); criteria_destroy(criteria); config->handler_context.using_criteria = true; // Skip leading whitespace head += strspn(head, whitespace); } // Split command list cmdlist = argsep(&head, ";"); cmdlist += strspn(cmdlist, whitespace); do { // Split commands cmd = argsep(&cmdlist, ","); cmd += strspn(cmd, whitespace); if (strcmp(cmd, "") == 0) { wlr_log(WLR_INFO, "Ignoring empty command."); continue; } wlr_log(WLR_INFO, "Handling command '%s'", cmd); //TODO better handling of argv int argc; char **argv = split_args(cmd, &argc); if (strcmp(argv[0], "exec") != 0) { int i; for (i = 1; i < argc; ++i) { if (*argv[i] == '\"' || *argv[i] == '\'') { strip_quotes(argv[i]); } } } struct cmd_handler *handler = find_handler(argv[0], NULL, 0); if (!handler) { if (results) { free_cmd_results(results); } results = cmd_results_new(CMD_INVALID, cmd, "Unknown/invalid command"); free_argv(argc, argv); goto cleanup; } // Var replacement, for all but first argument of set for (int i = handler->handle == cmd_set ? 2 : 1; i < argc; ++i) { argv[i] = do_var_replacement(argv[i]); unescape_string(argv[i]); } if (!config->handler_context.using_criteria) { set_config_node(node); struct cmd_results *res = handler->handle(argc-1, argv+1); if (res->status != CMD_SUCCESS) { free_argv(argc, argv); if (results) { free_cmd_results(results); } results = res; goto cleanup; } free_cmd_results(res); } else { for (int i = 0; i < views->length; ++i) { struct sway_view *view = views->items[i]; set_config_node(&view->container->node); struct cmd_results *res = handler->handle(argc-1, argv+1); if (res->status != CMD_SUCCESS) { free_argv(argc, argv); if (results) { free_cmd_results(results); } results = res; goto cleanup; } free_cmd_results(res); } } free_argv(argc, argv); } while(cmdlist); } while(head); cleanup: free(exec); list_free(views); if (!results) { results = cmd_results_new(CMD_SUCCESS, NULL, NULL); } return results; } // this is like execute_command above, except: // 1) it ignores empty commands (empty lines) // 2) it does variable substitution // 3) it doesn't split commands (because the multiple commands are supposed to // be chained together) // 4) execute_command handles all state internally while config_command has // some state handled outside (notably the block mode, in read_config) struct cmd_results *config_command(char *exec) { struct cmd_results *results = NULL; int argc; char **argv = split_args(exec, &argc); if (!argc) { results = cmd_results_new(CMD_SUCCESS, NULL, NULL); goto cleanup; } // Start block if (argc > 1 && strcmp(argv[argc - 1], "{") == 0) { char *block = join_args(argv, argc - 1); results = cmd_results_new(CMD_BLOCK, block, NULL); free(block); goto cleanup; } // Endblock if (strcmp(argv[argc - 1], "}") == 0) { results = cmd_results_new(CMD_BLOCK_END, NULL, NULL); goto cleanup; } wlr_log(WLR_INFO, "handling config command '%s'", exec); struct cmd_handler *handler = find_handler(argv[0], NULL, 0); if (!handler) { char *input = argv[0] ? argv[0] : "(empty)"; results = cmd_results_new(CMD_INVALID, input, "Unknown/invalid command"); goto cleanup; } int i; // Var replacement, for all but first argument of set // TODO commands for (i = handler->handle == cmd_set ? 2 : 1; i < argc; ++i) { if (handler->handle != cmd_exec && handler->handle != cmd_exec_always && handler->handle != cmd_bindsym && handler->handle != cmd_bindcode && handler->handle != cmd_set && (*argv[i] == '\"' || *argv[i] == '\'')) { strip_quotes(argv[i]); } argv[i] = do_var_replacement(argv[i]); unescape_string(argv[i]); } if (handler->handle) { results = handler->handle(argc-1, argv+1); } else { results = cmd_results_new(CMD_INVALID, argv[0], "This command is shimmed, but unimplemented"); } cleanup: free_argv(argc, argv); return results; } struct cmd_results *config_subcommand(char **argv, int argc, struct cmd_handler *handlers, size_t handlers_size) { char *command = join_args(argv, argc); wlr_log(WLR_DEBUG, "Subcommand: %s", command); free(command); struct cmd_handler *handler = find_handler(argv[0], handlers, handlers_size); if (!handler) { char *input = argv[0] ? argv[0] : "(empty)"; return cmd_results_new(CMD_INVALID, input, "Unknown/invalid command"); } if (handler->handle) { return handler->handle(argc - 1, argv + 1); } return cmd_results_new(CMD_INVALID, argv[0], "This command is shimmed, but unimplemented"); } struct cmd_results *config_commands_command(char *exec) { struct cmd_results *results = NULL; int argc; char **argv = split_args(exec, &argc); if (!argc) { results = cmd_results_new(CMD_SUCCESS, NULL, NULL); goto cleanup; } // Find handler for the command this is setting a policy for char *cmd = argv[0]; if (strcmp(cmd, "}") == 0) { results = cmd_results_new(CMD_BLOCK_END, NULL, NULL); goto cleanup; } struct cmd_handler *handler = find_handler(cmd, NULL, 0); if (!handler && strcmp(cmd, "*") != 0) { results = cmd_results_new(CMD_INVALID, cmd, "Unknown/invalid command"); goto cleanup; } enum command_context context = 0; struct { char *name; enum command_context context; } context_names[] = { { "config", CONTEXT_CONFIG }, { "binding", CONTEXT_BINDING }, { "ipc", CONTEXT_IPC }, { "criteria", CONTEXT_CRITERIA }, { "all", CONTEXT_ALL }, }; for (int i = 1; i < argc; ++i) { size_t j; for (j = 0; j < sizeof(context_names) / sizeof(context_names[0]); ++j) { if (strcmp(context_names[j].name, argv[i]) == 0) { break; } } if (j == sizeof(context_names) / sizeof(context_names[0])) { results = cmd_results_new(CMD_INVALID, cmd, "Invalid command context %s", argv[i]); goto cleanup; } context |= context_names[j].context; } struct command_policy *policy = NULL; for (int i = 0; i < config->command_policies->length; ++i) { struct command_policy *p = config->command_policies->items[i]; if (strcmp(p->command, cmd) == 0) { policy = p; break; } } if (!policy) { policy = alloc_command_policy(cmd); if (!sway_assert(policy, "Unable to allocate security policy")) { results = cmd_results_new(CMD_INVALID, cmd, "Unable to allocate memory"); goto cleanup; } list_add(config->command_policies, policy); } policy->context = context; wlr_log(WLR_INFO, "Set command policy for %s to %d", policy->command, policy->context); results = cmd_results_new(CMD_SUCCESS, NULL, NULL); cleanup: free_argv(argc, argv); return results; } struct cmd_results *cmd_results_new(enum cmd_status status, const char *input, const char *format, ...) { struct cmd_results *results = malloc(sizeof(struct cmd_results)); if (!results) { wlr_log(WLR_ERROR, "Unable to allocate command results"); return NULL; } results->status = status; if (input) { results->input = strdup(input); // input is the command name } else { results->input = NULL; } if (format) { char *error = malloc(256); va_list args; va_start(args, format); if (error) { vsnprintf(error, 256, format, args); } va_end(args); results->error = error; } else { results->error = NULL; } return results; } void free_cmd_results(struct cmd_results *results) { if (results->input) { free(results->input); } if (results->error) { free(results->error); } free(results); } char *cmd_results_to_json(struct cmd_results *results) { json_object *result_array = json_object_new_array(); json_object *root = json_object_new_object(); json_object_object_add(root, "success", json_object_new_boolean(results->status == CMD_SUCCESS)); if (results->input) { json_object_object_add( root, "input", json_object_new_string(results->input)); } if (results->error) { json_object_object_add( root, "error", json_object_new_string(results->error)); } json_object_array_add(result_array, root); const char *json = json_object_to_json_string(result_array); char *res = strdup(json); json_object_put(result_array); return res; } /** * Check and add color to buffer. * * return error object, or NULL if color is valid. */ struct cmd_results *add_color(const char *name, char *buffer, const char *color) { int len = strlen(color); if (len != 7 && len != 9) { return cmd_results_new(CMD_INVALID, name, "Invalid color definition %s", color); } if (color[0] != '#') { return cmd_results_new(CMD_INVALID, name, "Invalid color definition %s", color); } for (int i = 1; i < len; ++i) { if (!isxdigit(color[i])) { return cmd_results_new(CMD_INVALID, name, "Invalid color definition %s", color); } } strcpy(buffer, color); // add default alpha channel if color was defined without it if (len == 7) { buffer[7] = 'f'; buffer[8] = 'f'; } buffer[9] = '\0'; return NULL; }