/* * * Connection Manager * * Copyright (C) 2007-2009 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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, 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 #include #include #include #include "connman.h" static DBusConnection *connection; static GNode *element_root = NULL; static GSList *driver_list = NULL; static gchar *device_filter = NULL; static gchar *nodevice_filter = NULL; static gboolean started = FALSE; static const char *type2string(enum connman_element_type type) { switch (type) { case CONNMAN_ELEMENT_TYPE_UNKNOWN: return "unknown"; case CONNMAN_ELEMENT_TYPE_ROOT: return "root"; case CONNMAN_ELEMENT_TYPE_PROFILE: return "profile"; case CONNMAN_ELEMENT_TYPE_DEVICE: return "device"; case CONNMAN_ELEMENT_TYPE_NETWORK: return "network"; case CONNMAN_ELEMENT_TYPE_SERVICE: return "service"; case CONNMAN_ELEMENT_TYPE_IPV4: return "ipv4"; case CONNMAN_ELEMENT_TYPE_IPV6: return "ipv6"; case CONNMAN_ELEMENT_TYPE_DHCP: return "dhcp"; case CONNMAN_ELEMENT_TYPE_BOOTP: return "bootp"; case CONNMAN_ELEMENT_TYPE_ZEROCONF: return "zeroconf"; case CONNMAN_ELEMENT_TYPE_CONNECTION: return "connection"; case CONNMAN_ELEMENT_TYPE_VENDOR: return "vendor"; } return NULL; } struct foreach_data { enum connman_element_type type; element_cb_t callback; gpointer user_data; }; static gboolean foreach_callback(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct foreach_data *data = user_data; DBG("element %p name %s", element, element->name); if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return FALSE; if (data->type != CONNMAN_ELEMENT_TYPE_UNKNOWN && data->type != element->type) return FALSE; if (data->callback) data->callback(element, data->user_data); return FALSE; } void __connman_element_foreach(struct connman_element *element, enum connman_element_type type, element_cb_t callback, gpointer user_data) { struct foreach_data data = { type, callback, user_data }; GNode *node; DBG(""); if (element != NULL) { node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node == NULL) return; } else node = element_root; g_node_traverse(node, G_PRE_ORDER, G_TRAVERSE_ALL, -1, foreach_callback, &data); } struct append_filter { enum connman_element_type type; DBusMessageIter *iter; }; static gboolean append_path(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct append_filter *filter = user_data; DBG("element %p name %s", element, element->name); if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return FALSE; if (filter->type != CONNMAN_ELEMENT_TYPE_UNKNOWN && filter->type != element->type) return FALSE; if (filter->type == CONNMAN_ELEMENT_TYPE_DEVICE && __connman_device_has_driver(element->device) == FALSE) return FALSE; if (filter->type == CONNMAN_ELEMENT_TYPE_NETWORK && __connman_network_has_driver(element->network) == FALSE) return FALSE; dbus_message_iter_append_basic(filter->iter, DBUS_TYPE_OBJECT_PATH, &element->path); return FALSE; } void __connman_element_list(struct connman_element *element, enum connman_element_type type, DBusMessageIter *iter) { struct append_filter filter = { type, iter }; GNode *node; DBG(""); if (element != NULL) { node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node == NULL) return; } else node = element_root; g_node_traverse(node, G_PRE_ORDER, G_TRAVERSE_ALL, -1, append_path, &filter); } struct count_data { enum connman_element_type type; int count; }; static gboolean count_element(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct count_data *data = user_data; DBG("element %p name %s", element, element->name); if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return FALSE; if (data->type != CONNMAN_ELEMENT_TYPE_UNKNOWN && data->type != element->type) return FALSE; data->count++; return FALSE; } int __connman_element_count(struct connman_element *element, enum connman_element_type type) { struct count_data data = { type, 0 }; GNode *node; DBG(""); if (element != NULL) { node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node == NULL) return 0; } else node = element_root; g_node_traverse(node, G_PRE_ORDER, G_TRAVERSE_ALL, -1, count_element, &data); return data.count; } static struct connman_network *__connman_element_get_network(struct connman_element *element) { if (element->type == CONNMAN_ELEMENT_TYPE_NETWORK && element->network != NULL) return element->network; if (element->parent == NULL) return NULL; return __connman_element_get_network(element->parent); } struct connman_service *__connman_element_get_service(struct connman_element *element) { struct connman_service *service = NULL; struct connman_network *network; struct connman_device *device; enum connman_device_type type; device = __connman_element_get_device(element); if (device == NULL) return NULL; type = connman_device_get_type(device); switch (type) { case CONNMAN_DEVICE_TYPE_UNKNOWN: case CONNMAN_DEVICE_TYPE_VENDOR: case CONNMAN_DEVICE_TYPE_GPS: break; case CONNMAN_DEVICE_TYPE_ETHERNET: case CONNMAN_DEVICE_TYPE_WIFI: case CONNMAN_DEVICE_TYPE_WIMAX: case CONNMAN_DEVICE_TYPE_BLUETOOTH: case CONNMAN_DEVICE_TYPE_CELLULAR: case CONNMAN_DEVICE_TYPE_MBM: case CONNMAN_DEVICE_TYPE_HSO: network = __connman_element_get_network(element); if (network == NULL) return NULL; service = __connman_service_lookup_from_network(network); break; } return service; } struct connman_device *__connman_element_get_device(struct connman_element *element) { if (element->type == CONNMAN_ELEMENT_TYPE_DEVICE && element->device != NULL) return element->device; if (element->parent == NULL) return NULL; return __connman_element_get_device(element->parent); } const char *__connman_element_get_device_path(struct connman_element *element) { struct connman_device *device; device = __connman_element_get_device(element); if (device == NULL) return NULL; return connman_device_get_path(device); } const char *__connman_element_get_network_path(struct connman_element *element) { if (element->type == CONNMAN_ELEMENT_TYPE_NETWORK && element->network != NULL) return element->path; if (element->parent == NULL) return NULL; return __connman_element_get_network_path(element->parent); } struct find_data { enum connman_service_type type; struct connman_device *device; }; static gboolean find_device(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct find_data *data = user_data; if (element->type != CONNMAN_ELEMENT_TYPE_DEVICE) return FALSE; if (element->device == NULL) return FALSE; if (data->type != connman_device_get_type(element->device)) return FALSE; data->device = element->device; return TRUE; } struct connman_device *__connman_element_find_device(enum connman_service_type type) { struct find_data data = { .type = type, .device = NULL }; g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, find_device, &data); return data.device; } static gboolean request_scan(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct find_data *data = user_data; enum connman_service_type type; if (element->type != CONNMAN_ELEMENT_TYPE_DEVICE) return FALSE; if (element->device == NULL) return FALSE; type = __connman_device_get_service_type(element->device); switch (type) { case CONNMAN_SERVICE_TYPE_UNKNOWN: case CONNMAN_SERVICE_TYPE_SYSTEM: case CONNMAN_SERVICE_TYPE_ETHERNET: case CONNMAN_SERVICE_TYPE_BLUETOOTH: case CONNMAN_SERVICE_TYPE_CELLULAR: case CONNMAN_SERVICE_TYPE_VPN: return FALSE; case CONNMAN_SERVICE_TYPE_WIFI: case CONNMAN_SERVICE_TYPE_WIMAX: if (data->type != CONNMAN_SERVICE_TYPE_UNKNOWN && data->type != type) return FALSE; break; } __connman_device_scan(element->device); return FALSE; } int __connman_element_request_scan(enum connman_service_type type) { struct find_data data = { .type = type, .device = NULL }; g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, request_scan, &data); return 0; } static gboolean enable_technology(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct find_data *data = user_data; enum connman_service_type type; if (element->type != CONNMAN_ELEMENT_TYPE_DEVICE) return FALSE; if (element->device == NULL) return FALSE; type = __connman_device_get_service_type(element->device); switch (type) { case CONNMAN_SERVICE_TYPE_UNKNOWN: case CONNMAN_SERVICE_TYPE_SYSTEM: case CONNMAN_SERVICE_TYPE_VPN: return FALSE; case CONNMAN_SERVICE_TYPE_ETHERNET: case CONNMAN_SERVICE_TYPE_WIFI: case CONNMAN_SERVICE_TYPE_WIMAX: case CONNMAN_SERVICE_TYPE_BLUETOOTH: case CONNMAN_SERVICE_TYPE_CELLULAR: if (data->type != CONNMAN_SERVICE_TYPE_UNKNOWN && data->type != type) return FALSE; break; } __connman_device_enable_persistent(element->device); return FALSE; } int __connman_element_enable_technology(enum connman_service_type type) { struct find_data data = { .type = type, .device = NULL }; g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, enable_technology, &data); return 0; } static gboolean disable_technology(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct find_data *data = user_data; enum connman_service_type type; if (element->type != CONNMAN_ELEMENT_TYPE_DEVICE) return FALSE; if (element->device == NULL) return FALSE; type = __connman_device_get_service_type(element->device); switch (type) { case CONNMAN_SERVICE_TYPE_UNKNOWN: case CONNMAN_SERVICE_TYPE_SYSTEM: case CONNMAN_SERVICE_TYPE_VPN: return FALSE; case CONNMAN_SERVICE_TYPE_ETHERNET: case CONNMAN_SERVICE_TYPE_WIFI: case CONNMAN_SERVICE_TYPE_WIMAX: case CONNMAN_SERVICE_TYPE_BLUETOOTH: case CONNMAN_SERVICE_TYPE_CELLULAR: if (data->type != CONNMAN_SERVICE_TYPE_UNKNOWN && data->type != type) return FALSE; break; } __connman_device_disable_persistent(element->device); return FALSE; } int __connman_element_disable_technology(enum connman_service_type type) { struct find_data data = { .type = type, .device = NULL }; g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, disable_technology, &data); return 0; } static gint compare_priority(gconstpointer a, gconstpointer b) { const struct connman_driver *driver1 = a; const struct connman_driver *driver2 = b; return driver2->priority - driver1->priority; } static gboolean match_driver(struct connman_element *element, struct connman_driver *driver) { if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return FALSE; if (element->type == driver->type || driver->type == CONNMAN_ELEMENT_TYPE_UNKNOWN) return TRUE; return FALSE; } static gboolean probe_driver(GNode *node, gpointer data) { struct connman_element *element = node->data; struct connman_driver *driver = data; DBG("element %p name %s", element, element->name); if (!element->driver && match_driver(element, driver) == TRUE) { if (driver->probe(element) < 0) return FALSE; __connman_element_lock(element); element->driver = driver; __connman_element_unlock(element); } return FALSE; } void __connman_driver_rescan(struct connman_driver *driver) { DBG("driver %p name %s", driver, driver->name); if (!driver->probe) return; if (element_root != NULL) g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, probe_driver, driver); } /** * connman_driver_register: * @driver: driver definition * * Register a new driver * * Returns: %0 on success */ int connman_driver_register(struct connman_driver *driver) { DBG("driver %p name %s", driver, driver->name); if (driver->type == CONNMAN_ELEMENT_TYPE_ROOT) return -EINVAL; if (!driver->probe) return -EINVAL; driver_list = g_slist_insert_sorted(driver_list, driver, compare_priority); if (started == FALSE) return 0; if (element_root != NULL) g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, probe_driver, driver); return 0; } static gboolean remove_driver(GNode *node, gpointer data) { struct connman_element *element = node->data; struct connman_driver *driver = data; DBG("element %p name %s", element, element->name); if (element->driver == driver) { if (driver->remove) driver->remove(element); __connman_element_lock(element); element->driver = NULL; __connman_element_unlock(element); } return FALSE; } /** * connman_driver_unregister: * @driver: driver definition * * Remove a previously registered driver */ void connman_driver_unregister(struct connman_driver *driver) { DBG("driver %p name %s", driver, driver->name); driver_list = g_slist_remove(driver_list, driver); if (element_root != NULL) g_node_traverse(element_root, G_POST_ORDER, G_TRAVERSE_ALL, -1, remove_driver, driver); } static void unregister_property(gpointer data) { struct connman_property *property = data; DBG("property %p", property); g_free(property->value); g_free(property); } void __connman_element_initialize(struct connman_element *element) { DBG("element %p", element); element->refcount = 1; element->name = NULL; element->type = CONNMAN_ELEMENT_TYPE_UNKNOWN; element->state = CONNMAN_ELEMENT_STATE_UNKNOWN; element->error = CONNMAN_ELEMENT_ERROR_UNKNOWN; element->index = -1; element->enabled = FALSE; element->configuring = FALSE; element->properties = g_hash_table_new_full(g_str_hash, g_str_equal, g_free, unregister_property); } /** * connman_element_create: * @name: element name * * Allocate a new element and assign the given #name to it. If the name * is #NULL, it will be later on created based on the element type. * * Returns: a newly-allocated #connman_element structure */ struct connman_element *connman_element_create(const char *name) { struct connman_element *element; element = g_try_new0(struct connman_element, 1); if (element == NULL) return NULL; DBG("element %p", element); __connman_element_initialize(element); return element; } struct connman_element *connman_element_ref(struct connman_element *element) { DBG("element %p name %s refcount %d", element, element->name, g_atomic_int_get(&element->refcount) + 1); g_atomic_int_inc(&element->refcount); return element; } static void free_properties(struct connman_element *element) { DBG("element %p name %s", element, element->name); __connman_element_lock(element); g_hash_table_destroy(element->properties); element->properties = NULL; __connman_element_unlock(element); } void connman_element_unref(struct connman_element *element) { DBG("element %p name %s refcount %d", element, element->name, g_atomic_int_get(&element->refcount) - 1); if (g_atomic_int_dec_and_test(&element->refcount) == TRUE) { if (element->destruct) element->destruct(element); free_properties(element); g_free(element->ipv4.address); g_free(element->ipv4.netmask); g_free(element->ipv4.gateway); g_free(element->ipv4.network); g_free(element->ipv4.broadcast); g_free(element->ipv4.nameserver); g_free(element->ipv4.timeserver); g_free(element->devname); g_free(element->path); g_free(element->name); g_free(element); } } static int set_static_property(struct connman_element *element, const char *name, int type, const void *value) { struct connman_property *property; DBG("element %p name %s", element, element->name); if (type != DBUS_TYPE_STRING && type != DBUS_TYPE_BYTE) return -EINVAL; property = g_try_new0(struct connman_property, 1); if (property == NULL) return -ENOMEM; property->id = CONNMAN_PROPERTY_ID_INVALID; property->type = type; DBG("name %s type %d value %p", name, type, value); switch (type) { case DBUS_TYPE_STRING: property->value = g_strdup(*((const char **) value)); break; case DBUS_TYPE_BOOLEAN: case DBUS_TYPE_BYTE: property->value = g_try_malloc(1); if (property->value != NULL) memcpy(property->value, value, 1); break; } __connman_element_lock(element); g_hash_table_replace(element->properties, g_strdup(name), property); __connman_element_unlock(element); return 0; } static int set_static_array_property(struct connman_element *element, const char *name, int type, const void *value, int len) { struct connman_property *property; DBG("element %p name %s", element, element->name); if (type != DBUS_TYPE_BYTE) return -EINVAL; property = g_try_new0(struct connman_property, 1); if (property == NULL) return -ENOMEM; property->id = CONNMAN_PROPERTY_ID_INVALID; property->type = DBUS_TYPE_ARRAY; property->subtype = type; DBG("name %s type %d value %p", name, type, value); switch (type) { case DBUS_TYPE_BYTE: property->value = g_try_malloc(len); if (property->value != NULL) { memcpy(property->value, *((const unsigned char **) value), len); property->size = len; } break; } __connman_element_lock(element); g_hash_table_replace(element->properties, g_strdup(name), property); __connman_element_unlock(element); return 0; } #if 0 static int set_property(struct connman_element *element, enum connman_property_id id, const void *value) { switch (id) { case CONNMAN_PROPERTY_ID_IPV4_ADDRESS: __connman_element_lock(element); g_free(element->ipv4.address); element->ipv4.address = g_strdup(*((const char **) value)); __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_NETMASK: __connman_element_lock(element); g_free(element->ipv4.netmask); element->ipv4.netmask = g_strdup(*((const char **) value)); __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_GATEWAY: __connman_element_lock(element); g_free(element->ipv4.gateway); element->ipv4.gateway = g_strdup(*((const char **) value)); __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_BROADCAST: __connman_element_lock(element); g_free(element->ipv4.broadcast); element->ipv4.broadcast = g_strdup(*((const char **) value)); __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_NAMESERVER: __connman_element_lock(element); g_free(element->ipv4.nameserver); element->ipv4.nameserver = g_strdup(*((const char **) value)); __connman_element_unlock(element); break; default: return -EINVAL; } return 0; } #endif int connman_element_get_value(struct connman_element *element, enum connman_property_id id, void *value) { if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return -EINVAL; switch (id) { case CONNMAN_PROPERTY_ID_IPV4_METHOD: if (element->ipv4.method == CONNMAN_IPCONFIG_METHOD_UNKNOWN) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((const char **) value) = __connman_ipconfig_method2string(element->ipv4.method); __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_ADDRESS: if (element->ipv4.address == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.address; __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_NETMASK: if (element->ipv4.netmask == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.netmask; __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_GATEWAY: if (element->ipv4.gateway == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.gateway; __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_BROADCAST: if (element->ipv4.broadcast == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.broadcast; __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_NAMESERVER: if (element->ipv4.nameserver == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.nameserver; __connman_element_unlock(element); break; case CONNMAN_PROPERTY_ID_IPV4_TIMESERVER: if (element->ipv4.timeserver == NULL) return connman_element_get_value(element->parent, id, value); __connman_element_lock(element); *((char **) value) = element->ipv4.timeserver; __connman_element_unlock(element); break; default: return -EINVAL; } return 0; } static gboolean get_static_property(struct connman_element *element, const char *name, void *value) { struct connman_property *property; gboolean found = FALSE; DBG("element %p name %s", element, element->name); __connman_element_lock(element); property = g_hash_table_lookup(element->properties, name); if (property != NULL) { switch (property->type) { case DBUS_TYPE_STRING: *((char **) value) = property->value; found = TRUE; break; case DBUS_TYPE_BOOLEAN: case DBUS_TYPE_BYTE: memcpy(value, property->value, 1); found = TRUE; break; } } __connman_element_unlock(element); if (found == FALSE && element->parent != NULL) return get_static_property(element->parent, name, value); return found; } static gboolean get_static_array_property(struct connman_element *element, const char *name, void *value, unsigned int *len) { struct connman_property *property; gboolean found = FALSE; DBG("element %p name %s", element, element->name); __connman_element_lock(element); property = g_hash_table_lookup(element->properties, name); if (property != NULL) { *((void **) value) = property->value; *len = property->size; found = TRUE; } __connman_element_unlock(element); return found; } #if 0 static gboolean match_static_property(struct connman_element *element, const char *name, const void *value) { struct connman_property *property; gboolean result = FALSE; DBG("element %p name %s", element, element->name); __connman_element_lock(element); property = g_hash_table_lookup(element->properties, name); if (property != NULL) { if (property->type == DBUS_TYPE_STRING) result = g_str_equal(property->value, *((const char **) value)); } __connman_element_unlock(element); return result; } #endif /** * connman_element_set_string: * @element: element structure * @key: unique identifier * @value: string value * * Set string value for specific key */ int connman_element_set_string(struct connman_element *element, const char *key, const char *value) { return set_static_property(element, key, DBUS_TYPE_STRING, &value); } /** * connman_element_get_string: * @element: element structure * @key: unique identifier * * Get string value for specific key */ const char *connman_element_get_string(struct connman_element *element, const char *key) { const char *value; if (get_static_property(element, key, &value) == FALSE) return NULL; return value; } /** * connman_element_set_bool: * @element: element structure * @key: unique identifier * @value: boolean value * * Set boolean value for specific key */ int connman_element_set_bool(struct connman_element *element, const char *key, connman_bool_t value) { return set_static_property(element, key, DBUS_TYPE_BOOLEAN, &value); } /** * connman_element_get_bool: * @element: element structure * @key: unique identifier * * Get boolean value for specific key */ connman_bool_t connman_element_get_bool(struct connman_element *element, const char *key) { connman_bool_t value; if (get_static_property(element, key, &value) == FALSE) return FALSE; return value; } /** * connman_element_set_uint8: * @element: element structure * @key: unique identifier * @value: integer value * * Set integer value for specific key */ int connman_element_set_uint8(struct connman_element *element, const char *key, connman_uint8_t value) { return set_static_property(element, key, DBUS_TYPE_BYTE, &value); } /** * connman_element_get_uint8: * @element: element structure * @key: unique identifier * * Get integer value for specific key */ connman_uint8_t connman_element_get_uint8(struct connman_element *element, const char *key) { connman_uint8_t value; if (get_static_property(element, key, &value) == FALSE) return 0; return value; } /** * connman_element_set_blob: * @element: element structure * @key: unique identifier * @data: blob data * @size: blob size * * Set binary blob value for specific key */ int connman_element_set_blob(struct connman_element *element, const char *key, const void *data, unsigned int size) { return set_static_array_property(element, key, DBUS_TYPE_BYTE, &data, size); } /** * connman_element_get_blob: * @element: element structure * @key: unique identifier * @size: pointer to blob size * * Get binary blob value for specific key */ const void *connman_element_get_blob(struct connman_element *element, const char *key, unsigned int *size) { void *value; if (get_static_array_property(element, key, &value, size) == FALSE) return NULL; return value; } int __connman_element_append_ipv4(struct connman_element *element, DBusMessageIter *dict) { const char *method = NULL; const char *address = NULL, *netmask = NULL, *gateway = NULL; const char *broadcast = NULL, *nameserver = NULL; const char *timeserver = NULL; connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_METHOD, &method); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_ADDRESS, &address); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_NETMASK, &netmask); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_GATEWAY, &gateway); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_BROADCAST, &broadcast); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_NAMESERVER, &nameserver); connman_element_get_value(element, CONNMAN_PROPERTY_ID_IPV4_TIMESERVER, ×erver); if (method != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Method", DBUS_TYPE_STRING, &method); if (address != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Address", DBUS_TYPE_STRING, &address); if (netmask != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Netmask", DBUS_TYPE_STRING, &netmask); if (gateway != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Gateway", DBUS_TYPE_STRING, &gateway); if (broadcast != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Broadcast", DBUS_TYPE_STRING, &broadcast); if (nameserver != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Nameserver", DBUS_TYPE_STRING, &nameserver); if (timeserver != NULL) connman_dbus_dict_append_basic(dict, "IPv4.Timeserver", DBUS_TYPE_STRING, ×erver); return 0; } int __connman_element_set_ipv4(struct connman_element *element, const char *name, DBusMessageIter *value) { int type; type = dbus_message_iter_get_arg_type(value); if (g_str_equal(name, "IPv4.Method") == TRUE) { enum connman_ipconfig_method method; const char *str; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &str); method = __connman_ipconfig_string2method(str); if (method == CONNMAN_IPCONFIG_METHOD_UNKNOWN) return -EINVAL; if (method == element->ipv4.method) return -EALREADY; element->ipv4.method = method; connman_element_update(element); } else if (g_str_equal(name, "IPv4.Address") == TRUE) { const char *address; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &address); g_free(element->ipv4.address); element->ipv4.address = g_strdup(address); connman_element_update(element); } else if (g_str_equal(name, "IPv4.Netmask") == TRUE) { const char *netmask; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &netmask); g_free(element->ipv4.netmask); element->ipv4.netmask = g_strdup(netmask); connman_element_update(element); } else if (g_str_equal(name, "IPv4.Gateway") == TRUE) { const char *gateway; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &gateway); g_free(element->ipv4.gateway); element->ipv4.gateway = g_strdup(gateway); connman_element_update(element); } else if (g_str_equal(name, "IPv4.Broadcast") == TRUE) { const char *broadcast; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &broadcast); g_free(element->ipv4.broadcast); element->ipv4.broadcast = g_strdup(broadcast); connman_element_update(element); } else if (g_str_equal(name, "IPv4.Nameserver") == TRUE) { const char *nameserver; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, &nameserver); g_free(element->ipv4.nameserver); element->ipv4.nameserver = g_strdup(nameserver); connman_element_update(element); } else if (g_str_equal(name, "IPv4.Timeserver") == TRUE) { const char *timeserver; if (type != DBUS_TYPE_STRING) return -EINVAL; dbus_message_iter_get_basic(value, ×erver); g_free(element->ipv4.timeserver); element->ipv4.nameserver = g_strdup(timeserver); connman_element_update(element); } return 0; } static void emit_state_change(DBusConnection *conn, const char *state) { DBusMessage *signal; DBusMessageIter iter; connman_dbus_property_changed_basic(CONNMAN_MANAGER_PATH, CONNMAN_MANAGER_INTERFACE, "State", DBUS_TYPE_STRING, &state); signal = dbus_message_new_signal(CONNMAN_MANAGER_PATH, CONNMAN_MANAGER_INTERFACE, "StateChanged"); if (signal == NULL) return; dbus_message_iter_init_append(signal, &iter); dbus_message_iter_append_basic(&iter, DBUS_TYPE_STRING, &state); g_dbus_send_message(conn, signal); } static void probe_element(struct connman_element *element) { GSList *list; DBG("element %p name %s", element, element->name); for (list = driver_list; list; list = list->next) { struct connman_driver *driver = list->data; if (match_driver(element, driver) == FALSE) continue; DBG("driver %p name %s", driver, driver->name); if (driver->probe(element) == 0) { __connman_element_lock(element); element->driver = driver; __connman_element_unlock(element); break; } } } static void register_element(gpointer data, gpointer user_data) { struct connman_element *element = data; const gchar *basepath; GNode *node; __connman_element_lock(element); if (element->parent) { node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element->parent); basepath = element->parent->path; } else { element->parent = element_root->data; node = element_root; basepath = "/device"; } element->path = g_strdup_printf("%s/%s", basepath, element->name); __connman_element_unlock(element); if (node == NULL) { connman_error("Element registration for %s failed", element->path); return; } DBG("element %p path %s", element, element->path); g_node_append_data(node, element); if (element->type == CONNMAN_ELEMENT_TYPE_DHCP) { element->parent->configuring = TRUE; #if 0 if (__connman_element_count(NULL, CONNMAN_ELEMENT_TYPE_CONNECTION) == 0) emit_state_change(connection, "connecting"); #endif } if (element->type == CONNMAN_ELEMENT_TYPE_CONNECTION) { struct connman_element *parent = element->parent; while (parent) { parent->configuring = FALSE; parent = parent->parent; } if (__connman_element_count(NULL, CONNMAN_ELEMENT_TYPE_CONNECTION) == 1) emit_state_change(connection, "online"); } if (started == FALSE) return; probe_element(element); } gboolean __connman_element_device_isfiltered(const char *devname) { if (device_filter == NULL) goto nodevice; if (g_pattern_match_simple(device_filter, devname) == FALSE) { DBG("ignoring device %s (match)", devname); return TRUE; } nodevice: if (nodevice_filter == NULL) return FALSE; if (g_pattern_match_simple(nodevice_filter, devname) == TRUE) { DBG("ignoring device %s (no match)", devname); return TRUE; } return FALSE; } /** * connman_element_register: * @element: the element to register * @parent: the parent to register the element with * * Register an element with the core. It will be register under the given * parent of if %NULL is provided under the root element. * * Returns: %0 on success */ int connman_element_register(struct connman_element *element, struct connman_element *parent) { DBG("element %p name %s parent %p", element, element->name, parent); if (element->devname == NULL) element->devname = g_strdup(element->name); if (element->type != CONNMAN_ELEMENT_TYPE_DEVICE) goto setup; if (__connman_element_device_isfiltered(element->devname) == TRUE) return -EPERM; setup: if (connman_element_ref(element) == NULL) return -EINVAL; __connman_element_lock(element); if (element->name == NULL) { element->name = g_strdup(type2string(element->type)); if (element->name == NULL) { __connman_element_unlock(element); return -EINVAL; } } if (element->type == CONNMAN_ELEMENT_TYPE_DHCP) element->ipv4.method = CONNMAN_IPCONFIG_METHOD_DHCP; element->parent = parent; __connman_element_unlock(element); register_element(element, NULL); return 0; } static gboolean remove_element(GNode *node, gpointer user_data) { struct connman_element *element = node->data; struct connman_element *root = user_data; DBG("element %p name %s", element, element->name); if (element == root) return FALSE; if (node != NULL) g_node_unlink(node); if (element->driver) { if (element->driver->remove) element->driver->remove(element); __connman_element_lock(element); element->driver = NULL; __connman_element_unlock(element); } if (node != NULL) g_node_destroy(node); if (element->type == CONNMAN_ELEMENT_TYPE_CONNECTION) { if (__connman_element_count(NULL, CONNMAN_ELEMENT_TYPE_CONNECTION) == 0) emit_state_change(connection, "offline"); } connman_element_unref(element); return FALSE; } void connman_element_unregister(struct connman_element *element) { GNode *node; DBG("element %p name %s", element, element->name); node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node != NULL) g_node_traverse(node, G_POST_ORDER, G_TRAVERSE_ALL, -1, remove_element, NULL); } void connman_element_unregister_children(struct connman_element *element) { GNode *node; DBG("element %p name %s", element, element->name); node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node != NULL) g_node_traverse(node, G_POST_ORDER, G_TRAVERSE_ALL, -1, remove_element, element); } static gboolean update_element(GNode *node, gpointer user_data) { struct connman_element *element = node->data; DBG("element %p name %s", element, element->name); if (element->driver && element->driver->update) element->driver->update(element); return FALSE; } void connman_element_update(struct connman_element *element) { GNode *node; DBG("element %p name %s", element, element->name); node = g_node_find(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, element); if (node != NULL) g_node_traverse(node, G_PRE_ORDER, G_TRAVERSE_ALL, -1, update_element, element); } int connman_element_set_enabled(struct connman_element *element, gboolean enabled) { if (element->enabled == enabled) return 0; element->enabled = enabled; connman_element_update(element); return 0; } static enum connman_service_error convert_error(enum connman_element_error error) { switch (error) { case CONNMAN_ELEMENT_ERROR_UNKNOWN: case CONNMAN_ELEMENT_ERROR_FAILED: break; case CONNMAN_ELEMENT_ERROR_DHCP_FAILED: return CONNMAN_SERVICE_ERROR_DHCP_FAILED; case CONNMAN_ELEMENT_ERROR_CONNECT_FAILED: return CONNMAN_SERVICE_ERROR_CONNECT_FAILED; } return CONNMAN_SERVICE_ERROR_UNKNOWN; } /** * connman_element_set_error: * @element: element structure * @error: error identifier * * Set error state and specific error identifier */ void connman_element_set_error(struct connman_element *element, enum connman_element_error error) { struct connman_service *service; DBG("element %p error %d", element, error); if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return; element->state = CONNMAN_ELEMENT_STATE_ERROR; element->error = error; if (element->driver && element->driver->change) element->driver->change(element); service = __connman_element_get_service(element); __connman_service_indicate_error(service, convert_error(error)); } int __connman_element_init(const char *device, const char *nodevice) { struct connman_element *element; DBG(""); connection = connman_dbus_get_connection(); if (connection == NULL) return -EIO; device_filter = g_strdup(device); nodevice_filter = g_strdup(nodevice); element = connman_element_create("root"); element->path = g_strdup("/"); element->type = CONNMAN_ELEMENT_TYPE_ROOT; element_root = g_node_new(element); __connman_notifier_init(); __connman_service_init(); __connman_provider_init(); __connman_network_init(); __connman_device_init(); return 0; } static gboolean probe_node(GNode *node, gpointer data) { struct connman_element *element = node->data; DBG("element %p name %s", element, element->name); if (element->type == CONNMAN_ELEMENT_TYPE_ROOT) return FALSE; if (element->driver) return FALSE; probe_element(element); return FALSE; } void __connman_element_start(void) { DBG(""); __connman_storage_init_profile(); g_node_traverse(element_root, G_PRE_ORDER, G_TRAVERSE_ALL, -1, probe_node, NULL); started = TRUE; __connman_rtnl_start(); __connman_udev_start(); __connman_connection_init(); __connman_ipv4_init(); __connman_dhcp_init(); if (__connman_rfkill_init() < 0) __connman_udev_enable_rfkill_processing(); } void __connman_element_stop(void) { DBG(""); __connman_rfkill_cleanup(); __connman_dhcp_cleanup(); __connman_ipv4_cleanup(); __connman_provider_cleanup(); __connman_connection_cleanup(); } static gboolean free_driver(GNode *node, gpointer data) { struct connman_element *element = node->data; DBG("element %p name %s", element, element->name); if (element->driver) { if (element->driver->remove) element->driver->remove(element); __connman_element_lock(element); element->driver = NULL; __connman_element_unlock(element); } return FALSE; } static gboolean free_node(GNode *node, gpointer data) { struct connman_element *element = node->data; DBG("element %p name %s", element, element->name); if (g_node_depth(node) > 1) connman_element_unregister(element); return FALSE; } void __connman_element_cleanup(void) { DBG(""); __connman_device_cleanup(); __connman_network_cleanup(); __connman_service_cleanup(); __connman_notifier_cleanup(); g_node_traverse(element_root, G_POST_ORDER, G_TRAVERSE_ALL, -1, free_driver, NULL); g_node_traverse(element_root, G_POST_ORDER, G_TRAVERSE_ALL, -1, free_node, NULL); g_node_destroy(element_root); element_root = NULL; g_free(nodevice_filter); g_free(device_filter); if (connection == NULL) return; dbus_connection_unref(connection); }