/* * * Connection Manager * * Copyright (C) 2007-2012 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 "connman.h" /* * How many times to send RS with the purpose of * refreshing RDNSS entries before they actually expire. * With a value of 1, one RS will be sent, with no retries. */ #define RS_REFRESH_COUNT 1 /* * Value in seconds to wait for RA after RS was sent. * After this time elapsed, we can send another RS. */ #define RS_REFRESH_TIMEOUT 3 static GSList *network_list = NULL; static GSList *driver_list = NULL; struct connman_network { int refcount; enum connman_network_type type; connman_bool_t available; connman_bool_t connected; connman_bool_t roaming; uint8_t strength; uint16_t frequency; char *identifier; char *name; char *node; char *group; char *path; int index; int router_solicit_count; int router_solicit_refresh_count; struct connman_network_driver *driver; void *driver_data; connman_bool_t connecting; connman_bool_t associating; struct connman_device *device; struct { void *ssid; int ssid_len; char *mode; unsigned short channel; char *security; char *passphrase; char *agent_passphrase; char *eap; char *identity; char *agent_identity; char *ca_cert_path; char *client_cert_path; char *private_key_path; char *private_key_passphrase; char *phase2_auth; connman_bool_t wps; connman_bool_t use_wps; char *pin_wps; } wifi; }; static const char *type2string(enum connman_network_type type) { switch (type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: break; case CONNMAN_NETWORK_TYPE_ETHERNET: return "ethernet"; case CONNMAN_NETWORK_TYPE_WIFI: return "wifi"; case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: return "bluetooth"; case CONNMAN_NETWORK_TYPE_CELLULAR: return "cellular"; } return NULL; } static gboolean match_driver(struct connman_network *network, struct connman_network_driver *driver) { if (network->type == driver->type || driver->type == CONNMAN_NETWORK_TYPE_UNKNOWN) return TRUE; return FALSE; } static void set_configuration(struct connman_network *network, enum connman_ipconfig_type type) { struct connman_service *service; DBG("network %p", network); if (network->device == NULL) return; __connman_device_set_network(network->device, network); connman_device_set_disconnected(network->device, FALSE); service = connman_service_lookup_from_network(network); __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_CONFIGURATION, type); } static void dhcp_success(struct connman_network *network) { struct connman_service *service; struct connman_ipconfig *ipconfig_ipv4; int err; service = connman_service_lookup_from_network(network); if (service == NULL) goto err; connman_network_set_associating(network, FALSE); network->connecting = FALSE; ipconfig_ipv4 = __connman_service_get_ip4config(service); err = __connman_ipconfig_address_add(ipconfig_ipv4); if (err < 0) goto err; err = __connman_ipconfig_gateway_add(ipconfig_ipv4); if (err < 0) goto err; return; err: connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); } static void dhcp_failure(struct connman_network *network) { struct connman_service *service; service = connman_service_lookup_from_network(network); if (service == NULL) return; __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_IDLE, CONNMAN_IPCONFIG_TYPE_IPV4); } static void dhcp_callback(struct connman_network *network, connman_bool_t success) { DBG("success %d", success); if (success == TRUE) dhcp_success(network); else dhcp_failure(network); } static int set_connected_fixed(struct connman_network *network) { struct connman_service *service; struct connman_ipconfig *ipconfig_ipv4; int err; DBG(""); service = connman_service_lookup_from_network(network); ipconfig_ipv4 = __connman_service_get_ip4config(service); set_configuration(network, CONNMAN_IPCONFIG_TYPE_IPV4); network->connecting = FALSE; connman_network_set_associating(network, FALSE); err = __connman_ipconfig_address_add(ipconfig_ipv4); if (err < 0) goto err; err = __connman_ipconfig_gateway_add(ipconfig_ipv4); if (err < 0) goto err; return 0; err: connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); return err; } static void set_connected_manual(struct connman_network *network) { struct connman_service *service; struct connman_ipconfig *ipconfig; int err; DBG("network %p", network); service = connman_service_lookup_from_network(network); ipconfig = __connman_service_get_ip4config(service); if (__connman_ipconfig_get_local(ipconfig) == NULL) __connman_service_read_ip4config(service); set_configuration(network, CONNMAN_IPCONFIG_TYPE_IPV4); err = __connman_ipconfig_address_add(ipconfig); if (err < 0) goto err; err = __connman_ipconfig_gateway_add(ipconfig); if (err < 0) goto err; network->connecting = FALSE; connman_network_set_associating(network, FALSE); return; err: connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); return; } static int set_connected_dhcp(struct connman_network *network) { int err; DBG("network %p", network); set_configuration(network, CONNMAN_IPCONFIG_TYPE_IPV4); err = __connman_dhcp_start(network, dhcp_callback); if (err < 0) { connman_error("Can not request DHCP lease"); return err; } return 0; } static int manual_ipv6_set(struct connman_network *network, struct connman_ipconfig *ipconfig_ipv6) { struct connman_service *service; int err; DBG("network %p ipv6 %p", network, ipconfig_ipv6); service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; if (__connman_ipconfig_get_local(ipconfig_ipv6) == NULL) __connman_service_read_ip6config(service); __connman_ipconfig_enable_ipv6(ipconfig_ipv6); err = __connman_ipconfig_address_add(ipconfig_ipv6); if (err < 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); return err; } err = __connman_ipconfig_gateway_add(ipconfig_ipv6); if (err < 0) return err; __connman_connection_gateway_activate(service, CONNMAN_IPCONFIG_TYPE_IPV6); __connman_device_set_network(network->device, network); connman_device_set_disconnected(network->device, FALSE); network->connecting = FALSE; return 0; } static void stop_dhcpv6(struct connman_network *network) { __connman_dhcpv6_stop(network); } static void dhcpv6_release_callback(struct connman_network *network, connman_bool_t success) { DBG("success %d", success); stop_dhcpv6(network); } static void release_dhcpv6(struct connman_network *network) { __connman_dhcpv6_start_release(network, dhcpv6_release_callback); stop_dhcpv6(network); } static void dhcpv6_info_callback(struct connman_network *network, connman_bool_t success) { DBG("success %d", success); stop_dhcpv6(network); } static gboolean dhcpv6_set_addresses(struct connman_network *network) { struct connman_service *service; struct connman_ipconfig *ipconfig_ipv6; int err = -EINVAL; service = connman_service_lookup_from_network(network); if (service == NULL) goto err; connman_network_set_associating(network, FALSE); network->connecting = FALSE; ipconfig_ipv6 = __connman_service_get_ip6config(service); err = __connman_ipconfig_address_add(ipconfig_ipv6); if (err < 0) goto err; err = __connman_ipconfig_gateway_add(ipconfig_ipv6); if (err < 0) goto err; return 0; err: connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); return err; } static void autoconf_ipv6_set(struct connman_network *network); static void dhcpv6_callback(struct connman_network *network, connman_bool_t success); /* * Have a separate callback for renew so that we do not do autoconf * in wrong phase as the dhcpv6_callback() is also called when doing * DHCPv6 solicitation. */ static void dhcpv6_renew_callback(struct connman_network *network, connman_bool_t success) { if (success == TRUE) dhcpv6_callback(network, success); else { stop_dhcpv6(network); /* restart and do solicit again. */ autoconf_ipv6_set(network); } } static void dhcpv6_callback(struct connman_network *network, connman_bool_t success) { DBG("success %d", success); /* Start the renew process if necessary */ if (success == TRUE) { if (dhcpv6_set_addresses(network) < 0) { stop_dhcpv6(network); return; } if (__connman_dhcpv6_start_renew(network, dhcpv6_renew_callback) == -ETIMEDOUT) dhcpv6_renew_callback(network, FALSE); } else stop_dhcpv6(network); } static void check_dhcpv6(struct nd_router_advert *reply, unsigned int length, void *user_data) { struct connman_network *network = user_data; GSList *prefixes; DBG("reply %p", reply); if (reply == NULL) { /* * Router solicitation message seem to get lost easily so * try to send it again. */ if (network->router_solicit_count > 0) { DBG("re-send router solicitation %d", network->router_solicit_count); network->router_solicit_count--; __connman_inet_ipv6_send_rs(network->index, 1, check_dhcpv6, network); return; } connman_network_unref(network); return; } network->router_solicit_count = 0; /* * If we were disconnected while waiting router advertisement, * we just quit and do not start DHCPv6 */ if (network->connected == FALSE) { connman_network_unref(network); return; } prefixes = __connman_inet_ipv6_get_prefixes(reply, length); /* * We do stateful/stateless DHCPv6 if router advertisement says so. */ if (reply->nd_ra_flags_reserved & ND_RA_FLAG_MANAGED) __connman_dhcpv6_start(network, prefixes, dhcpv6_callback); else if (reply->nd_ra_flags_reserved & ND_RA_FLAG_OTHER) __connman_dhcpv6_start_info(network, dhcpv6_info_callback); connman_network_unref(network); } static void receive_refresh_rs_reply(struct nd_router_advert *reply, unsigned int length, void *user_data) { struct connman_network *network = user_data; DBG("reply %p", reply); if (reply == NULL) { /* * Router solicitation message seem to get lost easily so * try to send it again. */ if (network->router_solicit_refresh_count > 1) { network->router_solicit_refresh_count--; DBG("re-send router solicitation %d", network->router_solicit_refresh_count); __connman_inet_ipv6_send_rs(network->index, RS_REFRESH_TIMEOUT, receive_refresh_rs_reply, network); return; } } /* RS refresh not in progress anymore */ network->router_solicit_refresh_count = 0; connman_network_unref(network); return; } int __connman_refresh_rs_ipv6(struct connman_network *network, int index) { int ret = 0; DBG("network %p index %d", network, index); /* Send only one RS for all RDNSS entries which are about to expire */ if (network->router_solicit_refresh_count > 0) { DBG("RS refresh already started"); return 0; } network->router_solicit_refresh_count = RS_REFRESH_COUNT; connman_network_ref(network); ret = __connman_inet_ipv6_send_rs(index, RS_REFRESH_TIMEOUT, receive_refresh_rs_reply, network); return ret; } static void autoconf_ipv6_set(struct connman_network *network) { struct connman_service *service; struct connman_ipconfig *ipconfig; int index; DBG("network %p", network); if (network->router_solicit_count > 0) { /* * The autoconfiguration is already pending and we have sent * router solicitation messages and are now waiting answers. * There is no need to continue any further. */ DBG("autoconfiguration already started"); return; } __connman_device_set_network(network->device, network); connman_device_set_disconnected(network->device, FALSE); network->connecting = FALSE; service = connman_service_lookup_from_network(network); if (service == NULL) return; ipconfig = __connman_service_get_ip6config(service); if (ipconfig == NULL) return; index = __connman_ipconfig_get_index(ipconfig); connman_network_ref(network); /* Try to get stateless DHCPv6 information, RFC 3736 */ network->router_solicit_count = 3; __connman_inet_ipv6_send_rs(index, 1, check_dhcpv6, network); } static void set_connected(struct connman_network *network) { struct connman_ipconfig *ipconfig_ipv4, *ipconfig_ipv6; enum connman_ipconfig_method ipv4_method, ipv6_method; struct connman_service *service; int ret; if (network->connected == TRUE) return; network->connected = TRUE; service = connman_service_lookup_from_network(network); ipconfig_ipv4 = __connman_service_get_ip4config(service); ipconfig_ipv6 = __connman_service_get_ip6config(service); DBG("service %p ipv4 %p ipv6 %p", service, ipconfig_ipv4, ipconfig_ipv6); ipv4_method = __connman_ipconfig_get_method(ipconfig_ipv4); ipv6_method = __connman_ipconfig_get_method(ipconfig_ipv6); DBG("method ipv4 %d ipv6 %d", ipv4_method, ipv6_method); switch (ipv6_method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: break; case CONNMAN_IPCONFIG_METHOD_DHCP: case CONNMAN_IPCONFIG_METHOD_AUTO: autoconf_ipv6_set(network); break; case CONNMAN_IPCONFIG_METHOD_FIXED: case CONNMAN_IPCONFIG_METHOD_MANUAL: ret = manual_ipv6_set(network, ipconfig_ipv6); if (ret != 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL); return; } break; } switch (ipv4_method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: case CONNMAN_IPCONFIG_METHOD_AUTO: return; case CONNMAN_IPCONFIG_METHOD_FIXED: if (set_connected_fixed(network) < 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL); return; } return; case CONNMAN_IPCONFIG_METHOD_MANUAL: set_connected_manual(network); return; case CONNMAN_IPCONFIG_METHOD_DHCP: if (set_connected_dhcp(network) < 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL); return; } } network->connecting = FALSE; connman_network_set_associating(network, FALSE); } static void set_disconnected(struct connman_network *network) { struct connman_ipconfig *ipconfig_ipv4, *ipconfig_ipv6; enum connman_ipconfig_method ipv4_method, ipv6_method; enum connman_service_state state; struct connman_service *service; if (network->connected == FALSE) return; network->connected = FALSE; service = connman_service_lookup_from_network(network); ipconfig_ipv4 = __connman_service_get_ip4config(service); ipconfig_ipv6 = __connman_service_get_ip6config(service); DBG("service %p ipv4 %p ipv6 %p", service, ipconfig_ipv4, ipconfig_ipv6); ipv4_method = __connman_ipconfig_get_method(ipconfig_ipv4); ipv6_method = __connman_ipconfig_get_method(ipconfig_ipv6); DBG("method ipv4 %d ipv6 %d", ipv4_method, ipv6_method); /* * Resetting solicit count here will prevent the RS resend loop * from sending packets in check_dhcpv6() */ network->router_solicit_count = 0; __connman_device_set_network(network->device, NULL); switch (ipv6_method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: case CONNMAN_IPCONFIG_METHOD_FIXED: case CONNMAN_IPCONFIG_METHOD_MANUAL: break; case CONNMAN_IPCONFIG_METHOD_DHCP: case CONNMAN_IPCONFIG_METHOD_AUTO: release_dhcpv6(network); break; } switch (ipv4_method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: case CONNMAN_IPCONFIG_METHOD_AUTO: case CONNMAN_IPCONFIG_METHOD_FIXED: case CONNMAN_IPCONFIG_METHOD_MANUAL: break; case CONNMAN_IPCONFIG_METHOD_DHCP: __connman_dhcp_stop(network); break; } /* * We only set the disconnect state if we were not in idle * or in failure. It does not make sense to go to disconnect * state if we were not connected. */ state = __connman_service_ipconfig_get_state(service, CONNMAN_IPCONFIG_TYPE_IPV4); if (state != CONNMAN_SERVICE_STATE_IDLE && state != CONNMAN_SERVICE_STATE_FAILURE) __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_DISCONNECT, CONNMAN_IPCONFIG_TYPE_IPV4); state = __connman_service_ipconfig_get_state(service, CONNMAN_IPCONFIG_TYPE_IPV6); if (state != CONNMAN_SERVICE_STATE_IDLE && state != CONNMAN_SERVICE_STATE_FAILURE) __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_DISCONNECT, CONNMAN_IPCONFIG_TYPE_IPV6); __connman_connection_gateway_remove(service, CONNMAN_IPCONFIG_TYPE_ALL); __connman_ipconfig_address_unset(ipconfig_ipv4); __connman_ipconfig_address_unset(ipconfig_ipv6); /* * Special handling for IPv6 autoconfigured address. * The simplest way to remove autoconfigured routes is to * disable IPv6 temporarily so that kernel will do the cleanup * automagically. */ if (ipv6_method == CONNMAN_IPCONFIG_METHOD_AUTO) { __connman_ipconfig_disable_ipv6(ipconfig_ipv6); __connman_ipconfig_enable_ipv6(ipconfig_ipv6); } __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_IDLE, CONNMAN_IPCONFIG_TYPE_IPV4); __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_IDLE, CONNMAN_IPCONFIG_TYPE_IPV6); network->connecting = FALSE; connman_network_set_associating(network, FALSE); } static int network_probe(struct connman_network *network) { GSList *list; struct connman_network_driver *driver = NULL; DBG("network %p name %s", network, network->name); if (network->driver != NULL) return -EALREADY; for (list = driver_list; list; list = list->next) { driver = list->data; if (match_driver(network, driver) == FALSE) { driver = NULL; continue; } DBG("driver %p name %s", driver, driver->name); if (driver->probe(network) == 0) break; driver = NULL; } if (driver == NULL) return -ENODEV; if (network->group == NULL) return -EINVAL; switch (network->type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: return 0; case CONNMAN_NETWORK_TYPE_ETHERNET: case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: case CONNMAN_NETWORK_TYPE_CELLULAR: case CONNMAN_NETWORK_TYPE_WIFI: network->driver = driver; if (__connman_service_create_from_network(network) == NULL) { network->driver = NULL; return -EINVAL; } } return 0; } static void network_remove(struct connman_network *network) { DBG("network %p name %s", network, network->name); if (network->driver == NULL) return; if (network->connected == TRUE) set_disconnected(network); switch (network->type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: break; case CONNMAN_NETWORK_TYPE_ETHERNET: case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: case CONNMAN_NETWORK_TYPE_CELLULAR: case CONNMAN_NETWORK_TYPE_WIFI: if (network->group != NULL) { __connman_service_remove_from_network(network); g_free(network->group); network->group = NULL; } break; } if (network->driver->remove) network->driver->remove(network); network->driver = NULL; } static void network_change(struct connman_network *network) { DBG("network %p name %s", network, network->name); if (network->connected == FALSE) return; connman_device_set_disconnected(network->device, TRUE); if (network->driver && network->driver->disconnect) { network->driver->disconnect(network); return; } network->connected = FALSE; } static void probe_driver(struct connman_network_driver *driver) { GSList *list; DBG("driver %p name %s", driver, driver->name); for (list = network_list; list != NULL; list = list->next) { struct connman_network *network = list->data; if (network->driver != NULL) continue; if (driver->type != network->type) continue; if (driver->probe(network) < 0) continue; network->driver = driver; } } static void remove_driver(struct connman_network_driver *driver) { GSList *list; DBG("driver %p name %s", driver, driver->name); for (list = network_list; list != NULL; list = list->next) { struct connman_network *network = list->data; if (network->driver == driver) network_remove(network); } } static gint compare_priority(gconstpointer a, gconstpointer b) { const struct connman_network_driver *driver1 = a; const struct connman_network_driver *driver2 = b; return driver2->priority - driver1->priority; } /** * connman_network_driver_register: * @driver: network driver definition * * Register a new network driver * * Returns: %0 on success */ int connman_network_driver_register(struct connman_network_driver *driver) { DBG("driver %p name %s", driver, driver->name); driver_list = g_slist_insert_sorted(driver_list, driver, compare_priority); probe_driver(driver); return 0; } /** * connman_network_driver_unregister: * @driver: network driver definition * * Remove a previously registered network driver */ void connman_network_driver_unregister(struct connman_network_driver *driver) { DBG("driver %p name %s", driver, driver->name); driver_list = g_slist_remove(driver_list, driver); remove_driver(driver); } static void network_destruct(struct connman_network *network) { DBG("network %p name %s", network, network->name); g_free(network->wifi.ssid); g_free(network->wifi.mode); g_free(network->wifi.security); g_free(network->wifi.passphrase); g_free(network->wifi.agent_passphrase); g_free(network->wifi.eap); g_free(network->wifi.identity); g_free(network->wifi.agent_identity); g_free(network->wifi.ca_cert_path); g_free(network->wifi.client_cert_path); g_free(network->wifi.private_key_path); g_free(network->wifi.private_key_passphrase); g_free(network->wifi.phase2_auth); g_free(network->wifi.pin_wps); g_free(network->path); g_free(network->group); g_free(network->node); g_free(network->name); g_free(network->identifier); network->device = NULL; g_free(network); } /** * connman_network_create: * @identifier: network identifier (for example an unqiue name) * * Allocate a new network and assign the #identifier to it. * * Returns: a newly-allocated #connman_network structure */ struct connman_network *connman_network_create(const char *identifier, enum connman_network_type type) { struct connman_network *network; char *ident; DBG("identifier %s type %d", identifier, type); network = g_try_new0(struct connman_network, 1); if (network == NULL) return NULL; DBG("network %p", network); network->refcount = 1; ident = g_strdup(identifier); if (ident == NULL) { g_free(network); return NULL; } network->type = type; network->identifier = ident; network_list = g_slist_prepend(network_list, network); return network; } /** * connman_network_ref: * @network: network structure * * Increase reference counter of network */ struct connman_network * connman_network_ref_debug(struct connman_network *network, const char *file, int line, const char *caller) { DBG("%p name %s ref %d by %s:%d:%s()", network, network->name, network->refcount + 1, file, line, caller); __sync_fetch_and_add(&network->refcount, 1); return network; } /** * connman_network_unref: * @network: network structure * * Decrease reference counter of network */ void connman_network_unref_debug(struct connman_network *network, const char *file, int line, const char *caller) { DBG("%p name %s ref %d by %s:%d:%s()", network, network->name, network->refcount - 1, file, line, caller); if (__sync_fetch_and_sub(&network->refcount, 1) != 1) return; network_list = g_slist_remove(network_list, network); network_destruct(network); } const char *__connman_network_get_type(struct connman_network *network) { return type2string(network->type); } /** * connman_network_get_type: * @network: network structure * * Get type of network */ enum connman_network_type connman_network_get_type(struct connman_network *network) { return network->type; } /** * connman_network_get_identifier: * @network: network structure * * Get identifier of network */ const char *connman_network_get_identifier(struct connman_network *network) { return network->identifier; } /** * connman_network_set_index: * @network: network structure * @index: index number * * Set index number of network */ void connman_network_set_index(struct connman_network *network, int index) { struct connman_service *service; struct connman_ipconfig *ipconfig; service = connman_service_lookup_from_network(network); if (service == NULL) goto done; ipconfig = __connman_service_get_ip4config(service); if (ipconfig == NULL) goto done; /* If index changed, the index of ipconfig must be reset. */ __connman_ipconfig_set_index(ipconfig, index); DBG("index %d service %p ip4config %p", network->index, service, ipconfig); done: network->index = index; } /** * connman_network_get_index: * @network: network structure * * Get index number of network */ int connman_network_get_index(struct connman_network *network) { return network->index; } /** * connman_network_set_group: * @network: network structure * @group: group name * * Set group name for automatic clustering */ void connman_network_set_group(struct connman_network *network, const char *group) { switch (network->type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: return; case CONNMAN_NETWORK_TYPE_ETHERNET: case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: case CONNMAN_NETWORK_TYPE_CELLULAR: case CONNMAN_NETWORK_TYPE_WIFI: break; } if (g_strcmp0(network->group, group) == 0) { if (group != NULL) __connman_service_update_from_network(network); return; } if (network->group != NULL) { __connman_service_remove_from_network(network); g_free(network->group); } network->group = g_strdup(group); if (network->group != NULL) network_probe(network); } /** * connman_network_get_group: * @network: network structure * * Get group name for automatic clustering */ const char *connman_network_get_group(struct connman_network *network) { return network->group; } const char *__connman_network_get_ident(struct connman_network *network) { if (network->device == NULL) return NULL; return connman_device_get_ident(network->device); } connman_bool_t __connman_network_get_weakness(struct connman_network *network) { switch (network->type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: case CONNMAN_NETWORK_TYPE_ETHERNET: case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: case CONNMAN_NETWORK_TYPE_CELLULAR: break; case CONNMAN_NETWORK_TYPE_WIFI: if (g_strcmp0(network->wifi.mode, "adhoc") == 0) return TRUE; if (network->strength > 0 && network->strength < 20) return TRUE; break; } return FALSE; } connman_bool_t connman_network_get_connecting(struct connman_network *network) { return network->connecting; } /** * connman_network_set_available: * @network: network structure * @available: availability state * * Change availability state of network (in range) */ int connman_network_set_available(struct connman_network *network, connman_bool_t available) { DBG("network %p available %d", network, available); if (network->available == available) return -EALREADY; network->available = available; return 0; } /** * connman_network_get_available: * @network: network structure * * Get network available setting */ connman_bool_t connman_network_get_available(struct connman_network *network) { return network->available; } /** * connman_network_set_associating: * @network: network structure * @associating: associating state * * Change associating state of network */ int connman_network_set_associating(struct connman_network *network, connman_bool_t associating) { DBG("network %p associating %d", network, associating); if (network->associating == associating) return -EALREADY; network->associating = associating; if (associating == TRUE) { struct connman_service *service; service = connman_service_lookup_from_network(network); __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_ASSOCIATION, CONNMAN_IPCONFIG_TYPE_IPV4); __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_ASSOCIATION, CONNMAN_IPCONFIG_TYPE_IPV6); } return 0; } static void set_associate_error(struct connman_network *network) { struct connman_service *service; service = connman_service_lookup_from_network(network); __connman_service_indicate_error(service, CONNMAN_SERVICE_ERROR_CONNECT_FAILED); } static void set_configure_error(struct connman_network *network) { struct connman_service *service; service = connman_service_lookup_from_network(network); __connman_service_indicate_error(service, CONNMAN_SERVICE_ERROR_CONNECT_FAILED); } static void set_invalid_key_error(struct connman_network *network) { struct connman_service *service; service = connman_service_lookup_from_network(network); __connman_service_indicate_error(service, CONNMAN_SERVICE_ERROR_INVALID_KEY); } static void set_connect_error(struct connman_network *network) { struct connman_service *service; service = connman_service_lookup_from_network(network); __connman_service_indicate_error(service, CONNMAN_SERVICE_ERROR_CONNECT_FAILED); } void connman_network_set_ipv4_method(struct connman_network *network, enum connman_ipconfig_method method) { struct connman_service *service; struct connman_ipconfig *ipconfig; service = connman_service_lookup_from_network(network); if (service == NULL) return; ipconfig = __connman_service_get_ip4config(service); if (ipconfig == NULL) return; __connman_ipconfig_set_method(ipconfig, method); } void connman_network_set_ipv6_method(struct connman_network *network, enum connman_ipconfig_method method) { struct connman_service *service; struct connman_ipconfig *ipconfig; service = connman_service_lookup_from_network(network); if (service == NULL) return; ipconfig = __connman_service_get_ip6config(service); if (ipconfig == NULL) return; __connman_ipconfig_set_method(ipconfig, method); } void connman_network_set_error(struct connman_network *network, enum connman_network_error error) { DBG("network %p error %d", network, error); network->connecting = FALSE; network->associating = FALSE; switch (error) { case CONNMAN_NETWORK_ERROR_UNKNOWN: return; case CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL: set_associate_error(network); break; case CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL: set_configure_error(network); break; case CONNMAN_NETWORK_ERROR_INVALID_KEY: set_invalid_key_error(network); break; case CONNMAN_NETWORK_ERROR_CONNECT_FAIL: set_connect_error(network); break; } network_change(network); } void connman_network_clear_error(struct connman_network *network) { struct connman_service *service; DBG("network %p", network); if (network == NULL) return; if (network->connecting == TRUE || network->associating == TRUE) return; service = connman_service_lookup_from_network(network); __connman_service_clear_error(service); } /** * connman_network_set_connected: * @network: network structure * @connected: connected state * * Change connected state of network */ int connman_network_set_connected(struct connman_network *network, connman_bool_t connected) { DBG("network %p connected %d/%d connecting %d associating %d", network, network->connected, connected, network->connecting, network->associating); if ((network->connecting == TRUE || network->associating == TRUE) && connected == FALSE) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONNECT_FAIL); if (__connman_network_disconnect(network) == 0) return 0; } if (network->connected == connected) return -EALREADY; if (connected == FALSE) set_disconnected(network); else set_connected(network); return 0; } /** * connman_network_get_connected: * @network: network structure * * Get network connection status */ connman_bool_t connman_network_get_connected(struct connman_network *network) { return network->connected; } /** * connman_network_get_associating: * @network: network structure * * Get network associating status */ connman_bool_t connman_network_get_associating(struct connman_network *network) { return network->associating; } void connman_network_clear_hidden(void *user_data) { if (user_data == NULL) return; DBG("user_data %p", user_data); /* * Hidden service does not have a connect timeout so * we do not need to remove it. We can just return * error to the caller telling that we could not find * any network that we could connect to. */ __connman_service_reply_dbus_pending(user_data, EIO, NULL); } int connman_network_connect_hidden(struct connman_network *network, char *identity, char* passphrase, void *user_data) { int err = 0; struct connman_service *service; service = connman_service_lookup_from_network(network); DBG("network %p service %p user_data %p", network, service, user_data); if (service == NULL) { err = -EINVAL; goto out; } if (identity != NULL) __connman_service_set_agent_identity(service, identity); if (passphrase != NULL) err = __connman_service_add_passphrase(service, passphrase); if (err == -ENOKEY) { __connman_service_indicate_error(service, CONNMAN_SERVICE_ERROR_INVALID_KEY); goto out; } else { __connman_service_set_hidden(service); __connman_service_set_userconnect(service, TRUE); __connman_service_set_hidden_data(service, user_data); return __connman_service_connect(service); } out: __connman_service_return_error(service, -err, user_data); return err; } /** * __connman_network_connect: * @network: network structure * * Connect network */ int __connman_network_connect(struct connman_network *network) { int err; DBG("network %p", network); if (network->connected == TRUE) return -EISCONN; if (network->connecting == TRUE || network->associating == TRUE) return -EALREADY; if (network->driver == NULL) return -EUNATCH; if (network->driver->connect == NULL) return -ENOSYS; if (network->device == NULL) return -ENODEV; network->connecting = TRUE; __connman_device_disconnect(network->device); err = network->driver->connect(network); if (err < 0) { if (err == -EINPROGRESS) connman_network_set_associating(network, TRUE); else { network->connecting = FALSE; } return err; } set_connected(network); return err; } /** * __connman_network_disconnect: * @network: network structure * * Disconnect network */ int __connman_network_disconnect(struct connman_network *network) { int err; DBG("network %p", network); if (network->connected == FALSE && network->connecting == FALSE && network->associating == FALSE) return -ENOTCONN; if (network->driver == NULL) return -EUNATCH; if (network->driver->disconnect == NULL) return -ENOSYS; network->connecting = FALSE; err = network->driver->disconnect(network); if (err == 0) set_disconnected(network); return err; } static int manual_ipv4_set(struct connman_network *network, struct connman_ipconfig *ipconfig) { struct connman_service *service; int err; service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; err = __connman_ipconfig_address_add(ipconfig); if (err < 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL); return err; } return __connman_ipconfig_gateway_add(ipconfig); } int __connman_network_clear_ipconfig(struct connman_network *network, struct connman_ipconfig *ipconfig) { struct connman_service *service; enum connman_ipconfig_method method; enum connman_ipconfig_type type; service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; method = __connman_ipconfig_get_method(ipconfig); type = __connman_ipconfig_get_config_type(ipconfig); switch (method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: case CONNMAN_IPCONFIG_METHOD_FIXED: return -EINVAL; case CONNMAN_IPCONFIG_METHOD_AUTO: release_dhcpv6(network); break; case CONNMAN_IPCONFIG_METHOD_MANUAL: __connman_ipconfig_address_remove(ipconfig); break; case CONNMAN_IPCONFIG_METHOD_DHCP: __connman_dhcp_stop(network); break; } if (type == CONNMAN_IPCONFIG_TYPE_IPV6) __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_CONFIGURATION, CONNMAN_IPCONFIG_TYPE_IPV6); else if (type == CONNMAN_IPCONFIG_TYPE_IPV4) __connman_service_ipconfig_indicate_state(service, CONNMAN_SERVICE_STATE_CONFIGURATION, CONNMAN_IPCONFIG_TYPE_IPV4); return 0; } int __connman_network_set_ipconfig(struct connman_network *network, struct connman_ipconfig *ipconfig_ipv4, struct connman_ipconfig *ipconfig_ipv6) { enum connman_ipconfig_method method; int ret; if (network == NULL) return -EINVAL; if (ipconfig_ipv6) { method = __connman_ipconfig_get_method(ipconfig_ipv6); switch (method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: break; case CONNMAN_IPCONFIG_METHOD_AUTO: autoconf_ipv6_set(network); break; case CONNMAN_IPCONFIG_METHOD_FIXED: case CONNMAN_IPCONFIG_METHOD_MANUAL: ret = manual_ipv6_set(network, ipconfig_ipv6); if (ret != 0) { connman_network_set_error(network, CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL); return ret; } break; case CONNMAN_IPCONFIG_METHOD_DHCP: break; } } if (ipconfig_ipv4) { method = __connman_ipconfig_get_method(ipconfig_ipv4); switch (method) { case CONNMAN_IPCONFIG_METHOD_UNKNOWN: case CONNMAN_IPCONFIG_METHOD_OFF: case CONNMAN_IPCONFIG_METHOD_FIXED: case CONNMAN_IPCONFIG_METHOD_AUTO: return -EINVAL; case CONNMAN_IPCONFIG_METHOD_MANUAL: return manual_ipv4_set(network, ipconfig_ipv4); case CONNMAN_IPCONFIG_METHOD_DHCP: return __connman_dhcp_start(network, dhcp_callback); } } return 0; } int connman_network_set_ipaddress(struct connman_network *network, struct connman_ipaddress *ipaddress) { struct connman_service *service; struct connman_ipconfig *ipconfig = NULL; DBG("network %p", network); service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; ipconfig = __connman_service_get_ipconfig(service, ipaddress->family); if (ipconfig == NULL) return -EINVAL; __connman_ipconfig_set_local(ipconfig, ipaddress->local); __connman_ipconfig_set_peer(ipconfig, ipaddress->peer); __connman_ipconfig_set_broadcast(ipconfig, ipaddress->broadcast); __connman_ipconfig_set_prefixlen(ipconfig, ipaddress->prefixlen); __connman_ipconfig_set_gateway(ipconfig, ipaddress->gateway); return 0; } int connman_network_set_nameservers(struct connman_network *network, const char *nameservers) { struct connman_service *service; char **nameservers_array; int i; DBG("network %p nameservers %s", network, nameservers); service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; __connman_service_nameserver_clear(service); if (nameservers == NULL) return 0; nameservers_array = g_strsplit(nameservers, " ", 0); for (i = 0; nameservers_array[i] != NULL; i++) { __connman_service_nameserver_append(service, nameservers_array[i], FALSE); } g_strfreev(nameservers_array); return 0; } int connman_network_set_domain(struct connman_network *network, const char *domain) { struct connman_service *service; DBG("network %p domain %s", network, domain); service = connman_service_lookup_from_network(network); if (service == NULL) return -EINVAL; __connman_service_set_domainname(service, domain); return 0; } /** * connman_network_set_name: * @network: network structure * @name: name value * * Set display name value for network */ int connman_network_set_name(struct connman_network *network, const char *name) { DBG("network %p name %s", network, name); g_free(network->name); network->name = g_strdup(name); return 0; } /** * connman_network_set_strength: * @network: network structure * @strength: strength value * * Set signal strength value for network */ int connman_network_set_strength(struct connman_network *network, uint8_t strength) { DBG("network %p strengh %d", network, strength); network->strength = strength; return 0; } uint8_t connman_network_get_strength(struct connman_network *network) { return network->strength; } int connman_network_set_frequency(struct connman_network *network, uint16_t frequency) { DBG("network %p frequency %d", network, frequency); network->frequency = frequency; return 0; } uint16_t connman_network_get_frequency(struct connman_network *network) { return network->frequency; } int connman_network_set_wifi_channel(struct connman_network *network, uint16_t channel) { DBG("network %p wifi channel %d", network, channel); network->wifi.channel = channel; return 0; } uint16_t connman_network_get_wifi_channel(struct connman_network *network) { return network->wifi.channel; } /** * connman_network_set_string: * @network: network structure * @key: unique identifier * @value: string value * * Set string value for specific key */ int connman_network_set_string(struct connman_network *network, const char *key, const char *value) { DBG("network %p key %s value %s", network, key, value); if (g_strcmp0(key, "Name") == 0) return connman_network_set_name(network, value); if (g_str_equal(key, "Path") == TRUE) { g_free(network->path); network->path = g_strdup(value); } else if (g_str_equal(key, "Node") == TRUE) { g_free(network->node); network->node = g_strdup(value); } else if (g_str_equal(key, "WiFi.Mode") == TRUE) { g_free(network->wifi.mode); network->wifi.mode = g_strdup(value); } else if (g_str_equal(key, "WiFi.Security") == TRUE) { g_free(network->wifi.security); network->wifi.security = g_strdup(value); } else if (g_str_equal(key, "WiFi.Passphrase") == TRUE) { g_free(network->wifi.passphrase); network->wifi.passphrase = g_strdup(value); } else if (g_str_equal(key, "WiFi.AgentPassphrase") == TRUE) { g_free(network->wifi.agent_passphrase); network->wifi.agent_passphrase = g_strdup(value); } else if (g_str_equal(key, "WiFi.EAP") == TRUE) { g_free(network->wifi.eap); network->wifi.eap = g_strdup(value); } else if (g_str_equal(key, "WiFi.Identity") == TRUE) { g_free(network->wifi.identity); network->wifi.identity = g_strdup(value); } else if (g_str_equal(key, "WiFi.AgentIdentity") == TRUE) { g_free(network->wifi.agent_identity); network->wifi.agent_identity = g_strdup(value); } else if (g_str_equal(key, "WiFi.CACertFile") == TRUE) { g_free(network->wifi.ca_cert_path); network->wifi.ca_cert_path = g_strdup(value); } else if (g_str_equal(key, "WiFi.ClientCertFile") == TRUE) { g_free(network->wifi.client_cert_path); network->wifi.client_cert_path = g_strdup(value); } else if (g_str_equal(key, "WiFi.PrivateKeyFile") == TRUE) { g_free(network->wifi.private_key_path); network->wifi.private_key_path = g_strdup(value); } else if (g_str_equal(key, "WiFi.PrivateKeyPassphrase") == TRUE) { g_free(network->wifi.private_key_passphrase); network->wifi.private_key_passphrase = g_strdup(value); } else if (g_str_equal(key, "WiFi.Phase2") == TRUE) { g_free(network->wifi.phase2_auth); network->wifi.phase2_auth = g_strdup(value); } else if (g_str_equal(key, "WiFi.PinWPS") == TRUE) { g_free(network->wifi.pin_wps); network->wifi.pin_wps = g_strdup(value); } else { return -EINVAL; } return 0; } /** * connman_network_get_string: * @network: network structure * @key: unique identifier * * Get string value for specific key */ const char *connman_network_get_string(struct connman_network *network, const char *key) { DBG("network %p key %s", network, key); if (g_str_equal(key, "Path") == TRUE) return network->path; else if (g_str_equal(key, "Name") == TRUE) return network->name; else if (g_str_equal(key, "Node") == TRUE) return network->node; else if (g_str_equal(key, "WiFi.Mode") == TRUE) return network->wifi.mode; else if (g_str_equal(key, "WiFi.Security") == TRUE) return network->wifi.security; else if (g_str_equal(key, "WiFi.Passphrase") == TRUE) return network->wifi.passphrase; else if (g_str_equal(key, "WiFi.AgentPassphrase") == TRUE) return network->wifi.agent_passphrase; else if (g_str_equal(key, "WiFi.EAP") == TRUE) return network->wifi.eap; else if (g_str_equal(key, "WiFi.Identity") == TRUE) return network->wifi.identity; else if (g_str_equal(key, "WiFi.AgentIdentity") == TRUE) return network->wifi.agent_identity; else if (g_str_equal(key, "WiFi.CACertFile") == TRUE) return network->wifi.ca_cert_path; else if (g_str_equal(key, "WiFi.ClientCertFile") == TRUE) return network->wifi.client_cert_path; else if (g_str_equal(key, "WiFi.PrivateKeyFile") == TRUE) return network->wifi.private_key_path; else if (g_str_equal(key, "WiFi.PrivateKeyPassphrase") == TRUE) return network->wifi.private_key_passphrase; else if (g_str_equal(key, "WiFi.Phase2") == TRUE) return network->wifi.phase2_auth; else if (g_str_equal(key, "WiFi.PinWPS") == TRUE) return network->wifi.pin_wps; return NULL; } /** * connman_network_set_bool: * @network: network structure * @key: unique identifier * @value: boolean value * * Set boolean value for specific key */ int connman_network_set_bool(struct connman_network *network, const char *key, connman_bool_t value) { DBG("network %p key %s value %d", network, key, value); if (g_strcmp0(key, "Roaming") == 0) network->roaming = value; else if (g_strcmp0(key, "WiFi.WPS") == 0) network->wifi.wps = value; else if (g_strcmp0(key, "WiFi.UseWPS") == 0) network->wifi.use_wps = value; return -EINVAL; } /** * connman_network_get_bool: * @network: network structure * @key: unique identifier * * Get boolean value for specific key */ connman_bool_t connman_network_get_bool(struct connman_network *network, const char *key) { DBG("network %p key %s", network, key); if (g_str_equal(key, "Roaming") == TRUE) return network->roaming; else if (g_str_equal(key, "WiFi.WPS") == TRUE) return network->wifi.wps; else if (g_str_equal(key, "WiFi.UseWPS") == TRUE) return network->wifi.use_wps; return FALSE; } /** * connman_network_set_blob: * @network: network structure * @key: unique identifier * @data: blob data * @size: blob size * * Set binary blob value for specific key */ int connman_network_set_blob(struct connman_network *network, const char *key, const void *data, unsigned int size) { DBG("network %p key %s size %d", network, key, size); if (g_str_equal(key, "WiFi.SSID") == TRUE) { g_free(network->wifi.ssid); network->wifi.ssid = g_try_malloc(size); if (network->wifi.ssid != NULL) { memcpy(network->wifi.ssid, data, size); network->wifi.ssid_len = size; } else network->wifi.ssid_len = 0; } else { return -EINVAL; } return 0; } /** * connman_network_get_blob: * @network: network structure * @key: unique identifier * @size: pointer to blob size * * Get binary blob value for specific key */ const void *connman_network_get_blob(struct connman_network *network, const char *key, unsigned int *size) { DBG("network %p key %s", network, key); if (g_str_equal(key, "WiFi.SSID") == TRUE) { if (size != NULL) *size = network->wifi.ssid_len; return network->wifi.ssid; } return NULL; } void __connman_network_set_device(struct connman_network *network, struct connman_device *device) { if (network->device == device) return; if (network->device != NULL) network_remove(network); network->device = device; if (network->device != NULL) network_probe(network); } /** * connman_network_get_device: * @network: network structure * * Get parent device of network */ struct connman_device *connman_network_get_device(struct connman_network *network) { return network->device; } /** * connman_network_get_data: * @network: network structure * * Get private network data pointer */ void *connman_network_get_data(struct connman_network *network) { return network->driver_data; } /** * connman_network_set_data: * @network: network structure * @data: data pointer * * Set private network data pointer */ void connman_network_set_data(struct connman_network *network, void *data) { network->driver_data = data; } void connman_network_update(struct connman_network *network) { switch (network->type) { case CONNMAN_NETWORK_TYPE_UNKNOWN: case CONNMAN_NETWORK_TYPE_VENDOR: return; case CONNMAN_NETWORK_TYPE_ETHERNET: case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN: case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN: case CONNMAN_NETWORK_TYPE_CELLULAR: case CONNMAN_NETWORK_TYPE_WIFI: break; } if (network->group != NULL) __connman_service_update_from_network(network); } int __connman_network_init(void) { DBG(""); return 0; } void __connman_network_cleanup(void) { DBG(""); }