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|
/*
*
* Connection Manager
*
* Copyright (C) 2007-2010 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 <config.h>
#endif
#include <errno.h>
#include <string.h>
#include "connman.h"
static unsigned int hidden_counter = 0;
struct connman_network {
struct connman_element element;
enum connman_network_type type;
connman_bool_t available;
connman_bool_t connected;
connman_bool_t roaming;
connman_bool_t hidden;
connman_uint8_t strength;
connman_uint16_t frequency;
char *identifier;
char *address;
char *name;
char *node;
char *group;
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 *eap;
char *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_WIMAX:
return "wimax";
case CONNMAN_NETWORK_TYPE_BLUETOOTH_PAN:
case CONNMAN_NETWORK_TYPE_BLUETOOTH_DUN:
return "bluetooth";
case CONNMAN_NETWORK_TYPE_CELLULAR:
return "cellular";
}
return NULL;
}
connman_bool_t __connman_network_has_driver(struct connman_network *network)
{
if (network == NULL || network->driver == NULL)
return FALSE;
return TRUE;
}
static GSList *driver_list = NULL;
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)
{
GSList *list;
DBG("driver %p name %s", driver, driver->name);
for (list = driver_list; list; list = list->next) {
struct connman_network_driver *tmp = list->data;
if (tmp->type == driver->type)
return -EALREADY;
}
driver_list = g_slist_insert_sorted(driver_list, driver,
compare_priority);
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);
}
static void network_destruct(struct connman_element *element)
{
struct connman_network *network = element->network;
DBG("element %p name %s", element, element->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.eap);
g_free(network->wifi.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->group);
g_free(network->node);
g_free(network->name);
g_free(network->address);
g_free(network->identifier);
network->device = NULL;
}
/**
* 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;
connman_uint8_t strength = 0;
const char *str;
char *temp;
DBG("identifier %s type %d", identifier, type);
network = g_try_new0(struct connman_network, 1);
if (network == NULL)
return NULL;
DBG("network %p", network);
__connman_element_initialize(&network->element);
if (identifier == NULL) {
temp = g_strdup_printf("hidden_%d", hidden_counter++);
network->hidden = TRUE;
} else
temp = g_strdup(identifier);
if (temp == NULL) {
g_free(network);
return NULL;
}
network->element.name = temp;
network->element.type = CONNMAN_ELEMENT_TYPE_NETWORK;
network->element.network = network;
network->element.destruct = network_destruct;
str = type2string(type);
if (str != NULL)
connman_element_set_string(&network->element, "Type", str);
connman_element_set_uint8(&network->element, "Strength", strength);
network->type = type;
network->identifier = g_strdup(temp);
return network;
}
/**
* connman_network_ref:
* @network: network structure
*
* Increase reference counter of network
*/
struct connman_network *connman_network_ref(struct connman_network *network)
{
if (connman_element_ref(&network->element) == NULL)
return NULL;
return network;
}
/**
* connman_network_unref:
* @network: network structure
*
* Decrease reference counter of network
*/
void connman_network_unref(struct connman_network *network)
{
connman_element_unref(&network->element);
}
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);
DBG("index %d service %p ip4config %p", network->element.index,
service, ipconfig);
if (network->element.index < 0 && ipconfig == NULL) {
ipconfig = __connman_service_get_ip4config(service);
if (ipconfig == NULL)
/*
* This is needed for plugins that havent set their
* ipconfig layer yet, due to not being able to get
* a network index prior to creating a service.
*/
__connman_service_create_ip4config(service, index);
else
__connman_ipconfig_set_index(ipconfig, index);
} else {
/* If index changed, the index of ipconfig must be reset. */
if (ipconfig == NULL)
goto done;
__connman_ipconfig_set_index(ipconfig, index);
}
done:
network->element.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->element.index;
}
/**
* connman_network_get_element:
* @network: network structure
*
* Get connman_element of network
*/
struct connman_element *connman_network_get_element(
struct connman_network *network)
{
return &network->element;
}
/**
* 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:
case CONNMAN_NETWORK_TYPE_WIMAX:
break;
}
if (g_strcmp0(network->group, group) == 0) {
if (group != NULL)
__connman_profile_update_network(network);
return;
}
if (network->group != NULL) {
__connman_profile_remove_network(network);
g_free(network->group);
}
network->group = g_strdup(group);
if (network->group != NULL)
__connman_profile_add_network(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:
case CONNMAN_NETWORK_TYPE_WIMAX:
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)
{
if (network->hidden == TRUE)
return TRUE;
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_indicate_state(service,
CONNMAN_SERVICE_STATE_ASSOCIATION,
CONNMAN_IPCONFIG_TYPE_IPV4);
}
return 0;
}
static void set_associate_error(struct connman_network *network)
{
struct connman_service *service;
if (network->associating == FALSE)
return ;
network->associating = FALSE;
service = __connman_service_lookup_from_network(network);
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_FAILURE,
CONNMAN_IPCONFIG_TYPE_IPV4);
}
static void set_configure_error(struct connman_network *network)
{
struct connman_service *service;
network->connecting = FALSE;
service = __connman_service_lookup_from_network(network);
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_FAILURE,
CONNMAN_IPCONFIG_TYPE_IPV4);
}
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);
}
void connman_network_set_ipv4_method(struct connman_network *network,
enum connman_ipconfig_method method)
{
struct connman_service *service;
struct connman_ipconfig *ipconfig;
network->element.ipv4.method = method;
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;
network->element.ipv6.method = method;
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("nework %p, error %d", network, error);
network->connecting = 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;
}
}
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);
}
static void set_configuration(struct connman_network *network)
{
struct connman_service *service;
DBG("network %p", network);
__connman_device_increase_connections(network->device);
__connman_device_set_network(network->device, network);
connman_device_set_disconnected(network->device, FALSE);
service = __connman_service_lookup_from_network(network);
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_CONFIGURATION,
CONNMAN_IPCONFIG_TYPE_IPV4);
}
static int set_connected_fixed(struct connman_network *network)
{
struct connman_service *service;
struct connman_element *parent, *element;
DBG("");
service = __connman_service_lookup_from_network(network);
parent = connman_network_get_element(network);
set_configuration(network);
if (parent->ipv4.address == NULL)
return -EINVAL;
if (parent->ipv4.netmask == NULL)
return -EINVAL;
element = connman_element_create(NULL);
if (element == NULL) {
connman_error("Can not create connman_element");
return -ENOMEM;
}
element->type = CONNMAN_ELEMENT_TYPE_IPV4;
element->index = parent->index;
if (connman_element_register(element, parent) < 0) {
connman_error("Can not register connman_element");
return -EINVAL;
}
network->connecting = FALSE;
connman_network_set_associating(network, FALSE);
return 0;
}
static void set_connected_manual(struct connman_network *network)
{
struct connman_service *service;
struct connman_ipconfig *ipconfig;
const char *nameserver = NULL;
const char *gateway;
int err;
DBG("network %p", network);
service = __connman_service_lookup_from_network(network);
ipconfig = __connman_service_get_ip4config(service);
set_configuration(network);
err = __connman_ipconfig_set_address(ipconfig);
if (err < 0) {
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL);
return;
}
connman_element_get_value(&network->element,
CONNMAN_PROPERTY_ID_IPV4_NAMESERVER, &nameserver);
if (nameserver != NULL)
__connman_service_nameserver_append(service, nameserver);
connman_element_get_value(&network->element,
CONNMAN_PROPERTY_ID_IPV4_GATEWAY, &gateway);
if (gateway != NULL)
__connman_ipconfig_set_gateway(ipconfig, gateway);
network->connecting = FALSE;
connman_network_set_associating(network, FALSE);
__connman_service_indicate_state(service, CONNMAN_SERVICE_STATE_READY,
CONNMAN_IPCONFIG_TYPE_IPV4);
}
static int set_connected_dhcp(struct connman_network *network)
{
struct connman_element *element;
int error;
DBG("network %p", network);
element = connman_element_create(NULL);
if (element == NULL)
return -ENOMEM;
element->type = CONNMAN_ELEMENT_TYPE_DHCP;
element->index = network->element.index;
error = connman_element_register(element, &network->element);
if (error < 0) {
connman_element_unref(element);
return error;
}
set_configuration(network);
return 0;
}
static int manual_ipv6_set(struct connman_network *network,
struct connman_ipconfig *ipconfig_ipv6)
{
struct connman_service *service;
int err;
service = __connman_service_lookup_from_network(network);
if (service == NULL)
return -EINVAL;
err = __connman_ipconfig_set_address(ipconfig_ipv6);
if (err < 0) {
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL);
return err;
}
/*
* READY state will be indicated by IPV4 setting
* gateway will be set by IPV4 setting
*/
return 0;
}
static void autoconf_ipv6_set(struct connman_network *network,
struct connman_ipconfig *ipconfig_ipv6)
{
struct connman_service *service;
struct connman_ipconfig *ipconfig;
const char *nameserver = NULL;
DBG("network %p", network);
service = __connman_service_lookup_from_network(network);
ipconfig = __connman_service_get_ip6config(service);
__connman_device_increase_connections(network->device);
__connman_device_set_network(network->device, network);
connman_device_set_disconnected(network->device, FALSE);
connman_element_get_value(&network->element,
CONNMAN_PROPERTY_ID_IPV6_NAMESERVER, &nameserver);
if (nameserver != NULL)
__connman_service_nameserver_append(service, nameserver);
network->connecting = FALSE;
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_READY,
CONNMAN_IPCONFIG_TYPE_IPV6);
}
static gboolean set_connected(gpointer user_data)
{
struct connman_network *network = user_data;
struct connman_service *service;
struct connman_ipconfig *ipconfig_ipv4, *ipconfig_ipv6;
enum connman_ipconfig_method ipv4_method, ipv6_method;
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);
DBG("network connected %d", network->connected);
if (network->connected == TRUE) {
int ret;
switch (ipv6_method) {
case CONNMAN_IPCONFIG_METHOD_UNKNOWN:
case CONNMAN_IPCONFIG_METHOD_OFF:
break;
case CONNMAN_IPCONFIG_METHOD_AUTO:
autoconf_ipv6_set(network, ipconfig_ipv6);
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 FALSE;
}
break;
case CONNMAN_IPCONFIG_METHOD_DHCP:
break;
}
switch (ipv4_method) {
case CONNMAN_IPCONFIG_METHOD_UNKNOWN:
case CONNMAN_IPCONFIG_METHOD_OFF:
case CONNMAN_IPCONFIG_METHOD_AUTO:
return FALSE;
case CONNMAN_IPCONFIG_METHOD_FIXED:
if (set_connected_fixed(network) < 0) {
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL);
return FALSE;
}
return TRUE;
case CONNMAN_IPCONFIG_METHOD_MANUAL:
set_connected_manual(network);
return TRUE;
case CONNMAN_IPCONFIG_METHOD_DHCP:
if (set_connected_dhcp(network) < 0) {
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_ASSOCIATE_FAIL);
return FALSE;
}
}
} else {
struct connman_service *service;
connman_element_unregister_children(&network->element);
__connman_device_set_network(network->device, NULL);
network->hidden = FALSE;
service = __connman_service_lookup_from_network(network);
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_IDLE,
CONNMAN_IPCONFIG_TYPE_IPV4);
/* TODO: eventually the IPv6 disconnect state should be handled
* in connection.c
*/
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_DISCONNECT,
CONNMAN_IPCONFIG_TYPE_IPV6);
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_IDLE,
CONNMAN_IPCONFIG_TYPE_IPV6);
}
network->connecting = FALSE;
connman_network_set_associating(network, FALSE);
return FALSE;
}
/**
* 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", network, connected);
if ((network->connecting == TRUE || network->associating == TRUE) &&
connected == FALSE) {
connman_element_set_error(&network->element,
CONNMAN_ELEMENT_ERROR_CONNECT_FAILED);
__connman_network_disconnect(network);
}
if (network->connected == connected)
return -EALREADY;
if (connected == FALSE)
__connman_device_decrease_connections(network->device);
network->connected = connected;
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;
}
/**
* __connman_network_connect:
* @network: network structure
*
* Connect network
*/
int __connman_network_connect(struct connman_network *network)
{
struct connman_service *service;
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);
service = __connman_service_lookup_from_network(network);
err = network->driver->connect(network);
if (err < 0) {
if (err == -EINPROGRESS)
connman_network_set_associating(network, TRUE);
else {
network->connecting = FALSE;
network->hidden = FALSE;
}
return err;
}
network->connected = TRUE;
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) {
connman_network_set_connected(network, FALSE);
set_connected(network);
}
return err;
}
static int dhcp_start(struct connman_network *network)
{
struct connman_element *element;
int error;
element = connman_element_create(NULL);
if (element == NULL)
return -ENOMEM;
element->type = CONNMAN_ELEMENT_TYPE_DHCP;
element->index = network->element.index;
error = connman_element_register(element, &network->element);
if (error < 0) {
connman_element_unref(element);
return error;
}
return 0;
}
static int dhcp_stop(struct connman_network *network)
{
connman_element_unregister_children_type(&network->element,
CONNMAN_ELEMENT_TYPE_IPV4);
connman_element_unregister_children_type(&network->element,
CONNMAN_ELEMENT_TYPE_DHCP);
return 0;
}
static int manual_ipv4_set(struct connman_network *network,
struct connman_ipconfig *ipconfig)
{
struct connman_service *service;
const char *gateway;
int err;
service = __connman_service_lookup_from_network(network);
if (service == NULL)
return -EINVAL;
err = __connman_ipconfig_set_address(ipconfig);
if (err < 0) {
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL);
return err;
}
connman_element_get_value(&network->element,
CONNMAN_PROPERTY_ID_IPV4_GATEWAY, &gateway);
if (gateway != NULL)
__connman_ipconfig_set_gateway(ipconfig, gateway);
__connman_service_indicate_state(service, CONNMAN_SERVICE_STATE_READY,
CONNMAN_IPCONFIG_TYPE_IPV4);
return 0;
}
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:
case CONNMAN_IPCONFIG_METHOD_AUTO:
return -EINVAL;
case CONNMAN_IPCONFIG_METHOD_MANUAL:
__connman_ipconfig_clear_address(ipconfig);
break;
case CONNMAN_IPCONFIG_METHOD_DHCP:
dhcp_stop(network);
break;
}
if (type == CONNMAN_IPCONFIG_TYPE_IPV6)
__connman_service_indicate_state(service,
CONNMAN_SERVICE_STATE_CONFIGURATION,
CONNMAN_IPCONFIG_TYPE_IPV6);
else if (type == CONNMAN_IPCONFIG_TYPE_IPV4)
__connman_service_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 (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, ipconfig_ipv6);
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 FALSE;
}
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 dhcp_start(network);
}
}
return 0;
}
/**
* connman_network_set_address:
* @network: network structure
* @address: binary address value
* @size: binary address length
*
* Set unique address value for network
*/
int connman_network_set_address(struct connman_network *network,
const void *address, unsigned int size)
{
const unsigned char *addr_octet = address;
char *str;
DBG("network %p size %d", network, size);
if (size != 6)
return -EINVAL;
str = g_strdup_printf("%02X:%02X:%02X:%02X:%02X:%02X",
addr_octet[0], addr_octet[1], addr_octet[2],
addr_octet[3], addr_octet[4], addr_octet[5]);
if (str == NULL)
return -ENOMEM;
g_free(network->address);
network->address = str;
return connman_element_set_string(&network->element,
"Address", network->address);
}
/**
* 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 connman_element_set_string(&network->element, "Name", name);
}
/**
* 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,
connman_uint8_t strength)
{
DBG("network %p strengh %d", network, strength);
network->strength = strength;
return connman_element_set_uint8(&network->element,
"Strength", strength);
}
/**
* connman_network_set_roaming:
* @network: network structure
* @roaming: roaming state
*
* Set roaming state for network
*/
int connman_network_set_roaming(struct connman_network *network,
connman_bool_t roaming)
{
DBG("network %p roaming %d", network, roaming);
network->roaming = roaming;
return connman_element_set_bool(&network->element,
"Roaming", roaming);
}
/**
* 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)
{
int err;
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, "Address") == TRUE) {
g_free(network->address);
network->address = 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.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.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);
}
err = connman_element_set_string(&network->element, key, value);
if (err < 0)
return err;
if (network->driver == NULL)
return 0;
if (network->driver->setup)
return network->driver->setup(network, key);
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, "Address") == TRUE)
return network->address;
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.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.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 connman_element_get_string(&network->element, key);
}
/**
* 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)
return connman_network_set_roaming(network, 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 connman_element_set_bool(&network->element, key, value);
}
/**
* 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 connman_element_get_bool(&network->element, key);
}
/**
* connman_network_set_uint8:
* @network: network structure
* @key: unique identifier
* @value: integer value
*
* Set integer value for specific key
*/
int connman_network_set_uint8(struct connman_network *network,
const char *key, connman_uint8_t value)
{
DBG("network %p key %s value %d", network, key, value);
if (g_strcmp0(key, "Strength") == 0)
return connman_network_set_strength(network, value);
return connman_element_set_uint8(&network->element, key, value);
}
/**
* connman_network_get_uint8:
* @network: network structure
* @key: unique identifier
*
* Get integer value for specific key
*/
connman_uint8_t connman_network_get_uint8(struct connman_network *network,
const char *key)
{
DBG("network %p key %s", network, key);
if (g_str_equal(key, "Strength") == TRUE)
return network->strength;
return connman_element_get_uint8(&network->element, key);
}
/**
* connman_network_set_uint16:
* @network: network structure
* @key: unique identifier
* @value: integer value
*
* Set integer value for specific key
*/
int connman_network_set_uint16(struct connman_network *network,
const char *key, connman_uint16_t value)
{
DBG("network %p key %s value %d", network, key, value);
if (g_str_equal(key, "Frequency") == TRUE)
network->frequency = value;
else if (g_str_equal(key, "WiFi.Channel") == TRUE)
network->wifi.channel = value;
return -EINVAL;
}
/**
* connman_network_get_uint16:
* @network: network structure
* @key: unique identifier
*
* Get integer value for specific key
*/
connman_uint16_t connman_network_get_uint16(struct connman_network *network,
const char *key)
{
DBG("network %p key %s", network, key);
if (g_str_equal(key, "Frequency") == TRUE)
return network->frequency;
else if (g_str_equal(key, "WiFi.Channel") == TRUE)
return network->wifi.channel;
return 0;
}
/**
* 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_strcmp0(key, "Address") == 0)
return connman_network_set_address(network, data, 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;
}
return connman_element_set_blob(&network->element, key, data, size);
}
/**
* 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 connman_element_get_blob(&network->element, key, size);
}
void __connman_network_set_device(struct connman_network *network,
struct connman_device *device)
{
network->device = device;
}
/**
* 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:
case CONNMAN_NETWORK_TYPE_WIMAX:
break;
}
if (network->group != NULL)
__connman_service_update_from_network(network);
return;
}
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 int network_probe(struct connman_element *element)
{
struct connman_network *network = element->network;
GSList *list;
DBG("element %p name %s", element, element->name);
if (network == NULL)
return -ENODEV;
for (list = driver_list; list; list = list->next) {
struct connman_network_driver *driver = list->data;
if (match_driver(network, driver) == FALSE)
continue;
DBG("driver %p name %s", driver, driver->name);
if (driver->probe(network) == 0) {
network->driver = driver;
break;
}
}
if (network->driver == NULL)
return -ENODEV;
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:
case CONNMAN_NETWORK_TYPE_WIMAX:
if (network->group != NULL)
__connman_profile_add_network(network);
break;
}
return 0;
}
static void network_remove(struct connman_element *element)
{
struct connman_network *network = element->network;
DBG("element %p name %s", element, element->name);
if (network == NULL)
return;
if (network->driver == NULL)
return;
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:
case CONNMAN_NETWORK_TYPE_WIMAX:
if (network->group != NULL) {
__connman_profile_remove_network(network);
g_free(network->group);
network->group = NULL;
}
break;
}
if (network->driver->remove)
network->driver->remove(network);
}
static void network_change(struct connman_element *element)
{
struct connman_network *network = element->network;
DBG("element %p name %s", element, element->name);
if (element->state != CONNMAN_ELEMENT_STATE_ERROR)
return;
if (element->error != CONNMAN_ELEMENT_ERROR_DHCP_FAILED)
return;
if (network->connected == FALSE)
return;
connman_element_unregister_children(element);
connman_device_set_disconnected(network->device, TRUE);
if (network->driver && network->driver->disconnect) {
network->driver->disconnect(network);
return;
}
network->connected = FALSE;
}
static struct connman_driver network_driver = {
.name = "network",
.type = CONNMAN_ELEMENT_TYPE_NETWORK,
.priority = CONNMAN_DRIVER_PRIORITY_LOW,
.probe = network_probe,
.remove = network_remove,
.change = network_change,
};
int __connman_network_init(void)
{
DBG("");
return connman_driver_register(&network_driver);
}
void __connman_network_cleanup(void)
{
DBG("");
connman_driver_unregister(&network_driver);
}
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