/* * * Wireless daemon for Linux * * Copyright (C) 2017 Intel Corporation. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include "command.h" #include "dbus-proxy.h" #include "device.h" #include "display.h" #include "network.h" #include "properties.h" struct device { bool powered; bool scanning; bool wds; char *address; char *name; char *state; char *mode; const struct proxy_interface *adapter; const struct proxy_interface *connected_network; const struct proxy_interface *wsc; const struct proxy_interface *ap; const struct proxy_interface *ad_hoc; }; static struct proxy_interface *default_device; static void display_device(const struct proxy_interface *proxy) { const struct device *device = proxy_interface_get_data(proxy); char *caption = l_strdup_printf("%s: %s", "Device", device->name); proxy_properties_display(proxy, caption, MARGIN, 20, 47); l_free(caption); if (device->connected_network) { display("%s%*s %-*s%-*s\n", MARGIN, 8, "", 20, "Connected network", 47, proxy_interface_get_identity_str( device->connected_network) ? : ""); } if (device->adapter) { display("%s%*s %-*s%-*s\n", MARGIN, 8, "", 20, "Adapter", 47, proxy_interface_get_identity_str( device->adapter) ? : ""); } display_table_footer(); } static const char *get_name(const void *data) { const struct device *device = data; return device->name; } static void update_name(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *value; l_free(device->name); if (!l_dbus_message_iter_get_variant(variant, "s", &value)) { device->name = NULL; return; } device->name = l_strdup(value); } static const struct property_value_options device_mode_opts[] = { { "ad-hoc", (void *) "ad-hoc" }, { "ap", (void *) "ap" }, { "station", (void *) "station" }, { } }; static const char *get_mode(const void *data) { const struct device *device = data; return device->mode; } static void update_mode(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *value; l_free(device->mode); if (!l_dbus_message_iter_get_variant(variant, "s", &value)) { device->mode = NULL; return; } device->mode = l_strdup(value); } static bool builder_append_string_variant( struct l_dbus_message_builder *builder, const char *value_str) { return l_dbus_message_builder_append_basic(builder, 's', value_str); } static const char *get_address(const void *data) { const struct device *device = data; return device->address; } static void update_address(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *value; l_free(device->address); if (!l_dbus_message_iter_get_variant(variant, "s", &value)) { device->address = NULL; return; } device->address = l_strdup(value); } static const char *get_state(const void *data) { const struct device *device = data; return device->state; } static void update_state(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *value; l_free(device->state); if (!l_dbus_message_iter_get_variant(variant, "s", &value)) { device->state = NULL; return; } device->state = l_strdup(value); } static void update_connected_network(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *path; if (!l_dbus_message_iter_get_variant(variant, "o", &path)) { device->connected_network = NULL; return; } device->connected_network = proxy_interface_find(IWD_NETWORK_INTERFACE, path); } static const char *get_powered_tostr(const void *data) { const struct device *device = data; return device->powered ? "on" : "off"; } static void update_powered(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; bool value; if (!l_dbus_message_iter_get_variant(variant, "b", &value)) { device->powered = false; return; } device->powered = value; } static const char *get_wds_tostr(const void *data) { const struct device *device = data; return device->wds ? "on" : "off"; } static void update_wds(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; bool value; if (!l_dbus_message_iter_get_variant(variant, "b", &value)) { device->wds = false; return; } device->wds = value; } static const char *get_scanning_tostr(const void *data) { const struct device *device = data; return device->scanning ? "yes" : "no"; } static void update_scanning(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; bool value; if (!l_dbus_message_iter_get_variant(variant, "b", &value)) { device->scanning = false; return; } device->scanning = value; } static void update_adapter(void *data, struct l_dbus_message_iter *variant) { struct device *device = data; const char *path; if (!l_dbus_message_iter_get_variant(variant, "o", &path)) { device->adapter = NULL; return; } device->adapter = proxy_interface_find(IWD_ADAPTER_INTERFACE, path); } static const struct proxy_interface_property device_properties[] = { { "Name", "s", update_name, get_name }, { "Mode", "s", update_mode, get_mode, true, builder_append_string_variant, device_mode_opts }, { "Powered", "b", update_powered, get_powered_tostr, true, properties_builder_append_on_off_variant, properties_on_off_opts }, { "Adapter", "o", update_adapter }, { "Address", "s", update_address, get_address }, { "WDS", "b", update_wds, get_wds_tostr, true, properties_builder_append_on_off_variant, properties_on_off_opts }, { "Scanning", "b", update_scanning, get_scanning_tostr }, { "State", "s", update_state, get_state }, { "ConnectedNetwork", "o", update_connected_network }, { } }; struct ordered_network { char *network_path; char *name; int16_t signal_strength; char *type; }; static void ordered_networks_destroy(void *data) { struct ordered_network *network = data; l_free(network->name); l_free(network->network_path); l_free(network->type); l_free(network); } static const char *dbms_tostars(int16_t dbms) { if (dbms >= -6000) return "****"; if (dbms >= -6700) return "***" COLOR_BOLDGRAY "*" COLOR_OFF; if (dbms >= -7500) return "**" COLOR_BOLDGRAY "**" COLOR_OFF; return "*" COLOR_BOLDGRAY "***" COLOR_OFF; } #define RSSI_DBMS "rssi-dbms" #define RSSI_BARS "rssi-bars" static const struct { const char *option; } ordered_networks_arg_options[] = { { RSSI_DBMS }, { RSSI_BARS }, { } }; static bool display_signal_as_dbms; static void ordered_networks_display(struct l_queue *ordered_networks) { char *dbms = NULL; const struct l_queue_entry *entry; bool is_first; display_table_header("Available networks", "%s%-*s%-*s%-*s%*s", MARGIN, 2, "", 32, "Network name", 10, "Security", 6, "Signal"); if (!l_queue_length(ordered_networks)) { display("No networks available\n"); display_table_footer(); return; } for (is_first = true, entry = l_queue_get_entries(ordered_networks); entry; entry = entry->next) { struct ordered_network *network = entry->data; if (display_signal_as_dbms) dbms = l_strdup_printf("%d", network->signal_strength); if (is_first && network_is_connected(network->network_path)) { display("%s%-*s%-*s%-*s%-*s\n", MARGIN, 2, COLOR_BOLDGRAY "> " COLOR_OFF, 32, network->name, 10, network->type, 6, display_signal_as_dbms ? dbms : dbms_tostars(network->signal_strength)); l_free(dbms); is_first = false; continue; } display("%s%-*s%-*s%-*s%-*s\n", MARGIN, 2, "", 32, network->name, 10, network->type, 6, display_signal_as_dbms ? dbms : dbms_tostars(network->signal_strength)); l_free(dbms); } display_table_footer(); } static void ordered_networks_callback(struct l_dbus_message *message, void *proxy) { struct l_queue *networks = NULL; struct ordered_network network; struct l_dbus_message_iter iter; if (dbus_message_has_error(message)) return; if (!l_dbus_message_get_arguments(message, "a(osns)", &iter)) { l_error("Failed to parse ordered networks callback message"); return; } while (l_dbus_message_iter_next_entry(&iter, &network.network_path, &network.name, &network.signal_strength, &network.type)) { struct ordered_network *net = l_new(struct ordered_network, 1); if (!networks) networks = l_queue_new(); net->name = l_strdup(network.name); net->network_path = l_strdup(network.network_path); net->signal_strength = network.signal_strength; net->type = l_strdup(network.type); l_queue_push_tail(networks, net); } ordered_networks_display(networks); l_queue_destroy(networks, ordered_networks_destroy); } static void *device_create(void) { return l_new(struct device, 1); } static void device_destroy(void *data) { struct device *device = data; l_free(device->address); l_free(device->name); l_free(device->state); l_free(device->mode); device->adapter = NULL; device->connected_network = NULL; device->wsc = NULL; l_free(device); } static bool device_bind_interface(const struct proxy_interface *proxy, const struct proxy_interface *dependency) { const char *interface = proxy_interface_get_interface(dependency); if (!strcmp(interface, IWD_WSC_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->wsc = dependency; return true; } else if (!strcmp(interface, IWD_ACCESS_POINT_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->ap = dependency; return true; } else if (!strcmp(interface, IWD_AD_HOC_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->ad_hoc = dependency; return true; } return false; } static bool device_unbind_interface(const struct proxy_interface *proxy, const struct proxy_interface *dependency) { const char *interface = proxy_interface_get_interface(dependency); if (!strcmp(interface, IWD_WSC_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->wsc = NULL; return true; } else if (!strcmp(interface, IWD_ACCESS_POINT_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->ap = NULL; return true; } else if (!strcmp(interface, IWD_AD_HOC_INTERFACE)) { struct device *device = proxy_interface_get_data(proxy); device->ad_hoc = NULL; return true; } return false; } static void display_device_inline(const char *margin, const void *data) { const struct device *device = data; const char *adapter_str; if (device->adapter && proxy_interface_get_identity_str(device->adapter)) adapter_str = proxy_interface_get_identity_str(device->adapter); else adapter_str = "-"; display("%s%-*s%-*s%-*s%-*s%-*s\n", margin, 20, device->name ? : "", 20, device->address ? : "", 15, device->state ? : "", 10, adapter_str, 8, device->scanning ? "scanning" : ""); } static const char *device_identity(void *data) { const struct device *device = data; return device->name; } static const struct proxy_interface_type_ops device_ops = { .create = device_create, .destroy = device_destroy, .bind_interface = device_bind_interface, .unbind_interface = device_unbind_interface, .identity = device_identity, .display = display_device_inline, }; static struct proxy_interface_type device_interface_type = { .interface = IWD_DEVICE_INTERFACE, .properties = device_properties, .ops = &device_ops, }; static bool match_by_name(const void *a, const void *b) { const struct device *device = a; const char *name = b; return !strcmp(device->name, name); } static bool match_by_partial_name(const void *a, const void *b) { const struct device *device = a; const char *text = b; return !strncmp(device->name, text, strlen(text)); } static bool match_by_partial_name_and_wsc(const void *a, const void *b) { const struct device *device = a; return match_by_partial_name(a, b) && device->wsc ? true : false; } static bool match_by_partial_name_and_ap(const void *a, const void *b) { const struct device *device = a; return match_by_partial_name(a, b) && device->ap ? true : false; } static bool match_by_partial_name_and_ad_hoc(const void *a, const void *b) { const struct device *device = a; return match_by_partial_name(a, b) && device->ad_hoc ? true : false; } static bool match_all(const void *a, const void *b) { return true; } static void device_set_default(const char *device_name) { struct l_queue *match; if (!device_name) return; match = proxy_interface_find_all(device_interface_type.interface, match_by_name, device_name); if (!match) return; default_device = l_queue_pop_head(match); l_queue_destroy(match, NULL); } static const struct proxy_interface *device_get_default(void) { struct l_queue *match; if (default_device) return default_device; match = proxy_interface_find_all(device_interface_type.interface, match_all, NULL); if (!match) return NULL; default_device = l_queue_pop_head(match); l_queue_destroy(match, NULL); return default_device; } static const struct proxy_interface *get_device_proxy_by_name( const char *device_name) { struct l_queue *match; struct proxy_interface *proxy = NULL; if (!device_name) return NULL; match = proxy_interface_find_all(device_interface_type.interface, match_by_name, device_name); if (l_queue_length(match)) proxy = l_queue_pop_head(match); else display("Device %s not found.\n", device_name); l_queue_destroy(match, NULL); return proxy; } static enum cmd_status cmd_show(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_ARGS; display_device(proxy); return CMD_STATUS_DONE; } static void check_errors_method_callback(struct l_dbus_message *message, void *user_data) { dbus_message_has_error(message); } static enum cmd_status cmd_scan(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_ARGS; proxy_interface_method_call(proxy, "Scan", "", check_errors_method_callback); return CMD_STATUS_TRIGGERED; } static enum cmd_status cmd_disconnect(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_ARGS; proxy_interface_method_call(proxy, "Disconnect", "", check_errors_method_callback); return CMD_STATUS_TRIGGERED; } static enum cmd_status cmd_get_networks(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_ARGS; if (!argc) goto proceed; if (!strcmp(argv[0], RSSI_DBMS)) display_signal_as_dbms = true; else display_signal_as_dbms = false; proceed: proxy_interface_method_call(proxy, "GetOrderedNetworks", "", ordered_networks_callback); return CMD_STATUS_TRIGGERED; } static enum cmd_status cmd_list(const char *device_name, char **argv, int argc) { display_table_header("Devices", MARGIN "%-*s%-*s%-*s%-*s", 20, "Name", 20, "Address", 15, "State", 10, "Adapter"); proxy_interface_display_list(device_interface_type.interface); display_table_footer(); return CMD_STATUS_DONE; } static enum cmd_status cmd_set_property(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_VALUE; if (argc != 2) return CMD_STATUS_INVALID_ARGS; if (!proxy_property_set(proxy, argv[0], argv[1], check_errors_method_callback)) return CMD_STATUS_INVALID_VALUE; return CMD_STATUS_TRIGGERED; } static enum cmd_status cmd_connect(const char *device_name, char **argv, int argc) { struct network_args network_args; struct l_queue *match; const struct proxy_interface *network_proxy; const struct proxy_interface *device_proxy = get_device_proxy_by_name(device_name); if (!device_proxy) return CMD_STATUS_INVALID_VALUE; if (argc < 1) return CMD_STATUS_INVALID_ARGS; network_args.name = argv[0]; network_args.type = argc >= 2 ? argv[1] : NULL; match = network_match_by_device_and_args(device_proxy, &network_args); if (!match) { display("Invalid network name '%s'\n", network_args.name); return CMD_STATUS_INVALID_VALUE; } if (l_queue_length(match) > 1) { if (!network_args.type) { display("Provided network name is ambiguous. " "Please specify security type.\n"); } l_queue_destroy(match, NULL); return CMD_STATUS_INVALID_VALUE; } network_proxy = l_queue_pop_head(match); l_queue_destroy(match, NULL); network_connect(network_proxy); return CMD_STATUS_TRIGGERED; } static enum cmd_status cmd_connect_hidden_network(const char *device_name, char **argv, int argc) { const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return CMD_STATUS_INVALID_VALUE; if (argc != 1) return CMD_STATUS_INVALID_ARGS; proxy_interface_method_call(proxy, "ConnectHiddenNetwork", "s", check_errors_method_callback, argv[0]); return CMD_STATUS_TRIGGERED; } static char *get_networks_cmd_arg_completion(const char *text, int state) { static int index; static int len; const char *arg; if (!state) { index = 0; len = strlen(text); } while ((arg = ordered_networks_arg_options[index++].option)) { if (!strncmp(arg, text, len)) return l_strdup(arg); } return NULL; } static char *connect_cmd_arg_completion(const char *text, int state) { const struct proxy_interface *device = device_get_default(); if (!device) return NULL; return network_name_completion(device, text, state); } static char *set_property_cmd_arg_completion(const char *text, int state) { return proxy_property_completion(device_properties, text, state); } static const struct command device_commands[] = { { NULL, "list", NULL, cmd_list, "List devices", true }, { "", "show", NULL, cmd_show, "Show device info", true }, { "", "scan", NULL, cmd_scan, "Scan for networks" }, { "", "get-networks", "[rssi-dbms/rssi-bars]", cmd_get_networks, "Get networks", true, get_networks_cmd_arg_completion }, { "", "set-property", " ", cmd_set_property, "Set property", false, set_property_cmd_arg_completion }, { "", "connect", "<\"network name\"> [security]", cmd_connect, "Connect to network", false, connect_cmd_arg_completion }, { "", "connect-hidden", "<\"network name\">", cmd_connect_hidden_network, "Connect to hidden network", false }, { "", "disconnect", NULL, cmd_disconnect, "Disconnect" }, { } }; const struct proxy_interface *device_wsc_get(const char *device_name) { const struct device *device; const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return NULL; device = proxy_interface_get_data(proxy); return device->wsc; } char *device_wsc_family_arg_completion(const char *text, int state) { return proxy_property_str_completion(&device_interface_type, match_by_partial_name_and_wsc, "Name", text, state); } const struct proxy_interface *device_ap_get(const char *device_name) { const struct device *device; const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return NULL; device = proxy_interface_get_data(proxy); return device->ap; } char *device_ap_family_arg_completion(const char *text, int state) { return proxy_property_str_completion(&device_interface_type, match_by_partial_name_and_ap, "Name", text, state); } const struct proxy_interface *device_ad_hoc_get(const char *device_name) { const struct device *device; const struct proxy_interface *proxy = get_device_proxy_by_name(device_name); if (!proxy) return NULL; device = proxy_interface_get_data(proxy); return device->ad_hoc; } char *device_ad_hoc_family_arg_completion(const char *text, int state) { return proxy_property_str_completion(&device_interface_type, match_by_partial_name_and_ad_hoc, "Name", text, state); } static char *family_arg_completion(const char *text, int state) { static bool first_pass; static size_t index; static size_t len; const char *cmd; if (!state) { index = 0; len = strlen(text); first_pass = true; } while ((cmd = device_commands[index].cmd)) { if (device_commands[index++].entity) continue; if (!strncmp(cmd, text, len)) return l_strdup(cmd); } if (first_pass) { state = 0; first_pass = false; } return proxy_property_str_completion(&device_interface_type, match_by_partial_name, "Name", text, state); } static char *entity_arg_completion(const char *text, int state) { return command_entity_arg_completion(text, state, device_commands); } static struct command_family device_command_family = { .caption = "Devices", .name = "device", .command_list = device_commands, .family_arg_completion = family_arg_completion, .entity_arg_completion = entity_arg_completion, .set_default_entity = device_set_default, }; static int device_command_family_init(void) { command_family_register(&device_command_family); return 0; } static void device_command_family_exit(void) { command_family_unregister(&device_command_family); } COMMAND_FAMILY(device_command_family, device_command_family_init, device_command_family_exit) static int device_interface_init(void) { proxy_interface_type_register(&device_interface_type); return 0; } static void device_interface_exit(void) { proxy_interface_type_unregister(&device_interface_type); } INTERFACE_TYPE(device_interface_type, device_interface_init, device_interface_exit)