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android / platform / external / chromium_org / 81be6ff / . / chromeos / network / network_connection_handler.cc
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// Copyright (c) 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chromeos/network/network_connection_handler.h"
#include "base/bind.h"
#include "base/json/json_reader.h"
#include "base/location.h"
#include "base/message_loop/message_loop_proxy.h"
#include "base/strings/string_number_conversions.h"
#include "chromeos/cert_loader.h"
#include "chromeos/dbus/dbus_thread_manager.h"
#include "chromeos/dbus/shill_manager_client.h"
#include "chromeos/dbus/shill_service_client.h"
#include "chromeos/network/client_cert_util.h"
#include "chromeos/network/managed_network_configuration_handler.h"
#include "chromeos/network/network_configuration_handler.h"
#include "chromeos/network/network_event_log.h"
#include "chromeos/network/network_handler_callbacks.h"
#include "chromeos/network/network_profile_handler.h"
#include "chromeos/network/network_state.h"
#include "chromeos/network/network_state_handler.h"
#include "chromeos/network/network_ui_data.h"
#include "chromeos/network/shill_property_util.h"
#include "chromeos/tpm_token_loader.h"
#include "dbus/object_path.h"
#include "net/cert/x509_certificate.h"
#include "third_party/cros_system_api/dbus/service_constants.h"
namespace chromeos {
namespace {
void InvokeErrorCallback(const std::string& service_path,
const network_handler::ErrorCallback& error_callback,
const std::string& error_name) {
NET_LOG_ERROR("Connect Error: " + error_name, service_path);
network_handler::RunErrorCallback(
error_callback, service_path, error_name, "");
}
bool IsAuthenticationError(const std::string& error) {
return (error == shill::kErrorBadWEPKey ||
error == shill::kErrorPppAuthFailed ||
error == shill::kErrorEapLocalTlsFailed ||
error == shill::kErrorEapRemoteTlsFailed ||
error == shill::kErrorEapAuthenticationFailed);
}
bool VPNRequiresCredentials(const std::string& service_path,
const std::string& provider_type,
const base::DictionaryValue& provider_properties) {
if (provider_type == shill::kProviderOpenVpn) {
std::string username;
provider_properties.GetStringWithoutPathExpansion(
shill::kOpenVPNUserProperty, &username);
if (username.empty()) {
NET_LOG_EVENT("OpenVPN: No username", service_path);
return true;
}
bool passphrase_required = false;
provider_properties.GetBooleanWithoutPathExpansion(
shill::kPassphraseRequiredProperty, &passphrase_required);
if (passphrase_required) {
NET_LOG_EVENT("OpenVPN: Passphrase Required", service_path);
return true;
}
NET_LOG_EVENT("OpenVPN Is Configured", service_path);
} else {
bool passphrase_required = false;
provider_properties.GetBooleanWithoutPathExpansion(
shill::kL2tpIpsecPskRequiredProperty, &passphrase_required);
if (passphrase_required) {
NET_LOG_EVENT("VPN: PSK Required", service_path);
return true;
}
provider_properties.GetBooleanWithoutPathExpansion(
shill::kPassphraseRequiredProperty, &passphrase_required);
if (passphrase_required) {
NET_LOG_EVENT("VPN: Passphrase Required", service_path);
return true;
}
NET_LOG_EVENT("VPN Is Configured", service_path);
}
return false;
}
std::string GetDefaultUserProfilePath(const NetworkState* network) {
if (!NetworkHandler::IsInitialized() ||
(LoginState::IsInitialized() &&
!LoginState::Get()->UserHasNetworkProfile()) ||
(network && network->type() == shill::kTypeWifi &&
network->security() == shill::kSecurityNone)) {
return NetworkProfileHandler::GetSharedProfilePath();
}
const NetworkProfile* profile =
NetworkHandler::Get()->network_profile_handler()->GetDefaultUserProfile();
return profile ? profile->path
: NetworkProfileHandler::GetSharedProfilePath();
}
} // namespace
const char NetworkConnectionHandler::kErrorNotFound[] = "not-found";
const char NetworkConnectionHandler::kErrorConnected[] = "connected";
const char NetworkConnectionHandler::kErrorConnecting[] = "connecting";
const char NetworkConnectionHandler::kErrorNotConnected[] = "not-connected";
const char NetworkConnectionHandler::kErrorPassphraseRequired[] =
"passphrase-required";
const char NetworkConnectionHandler::kErrorActivationRequired[] =
"activation-required";
const char NetworkConnectionHandler::kErrorCertificateRequired[] =
"certificate-required";
const char NetworkConnectionHandler::kErrorConfigurationRequired[] =
"configuration-required";
const char NetworkConnectionHandler::kErrorAuthenticationRequired[] =
"authentication-required";
const char NetworkConnectionHandler::kErrorShillError[] = "shill-error";
const char NetworkConnectionHandler::kErrorConfigureFailed[] =
"configure-failed";
const char NetworkConnectionHandler::kErrorConnectCanceled[] =
"connect-canceled";
const char NetworkConnectionHandler::kErrorCertLoadTimeout[] =
"cert-load-timeout";
struct NetworkConnectionHandler::ConnectRequest {
ConnectRequest(const std::string& service_path,
const std::string& profile_path,
const base::Closure& success,
const network_handler::ErrorCallback& error)
: service_path(service_path),
profile_path(profile_path),
connect_state(CONNECT_REQUESTED),
success_callback(success),
error_callback(error) {
}
enum ConnectState {
CONNECT_REQUESTED = 0,
CONNECT_STARTED = 1,
CONNECT_CONNECTING = 2
};
std::string service_path;
std::string profile_path;
ConnectState connect_state;
base::Closure success_callback;
network_handler::ErrorCallback error_callback;
};
NetworkConnectionHandler::NetworkConnectionHandler()
: cert_loader_(NULL),
network_state_handler_(NULL),
configuration_handler_(NULL),
logged_in_(false),
certificates_loaded_(false),
applied_autoconnect_policy_(false),
requested_connect_to_best_network_(false) {
}
NetworkConnectionHandler::~NetworkConnectionHandler() {
if (network_state_handler_)
network_state_handler_->RemoveObserver(this, FROM_HERE);
if (cert_loader_)
cert_loader_->RemoveObserver(this);
if (LoginState::IsInitialized())
LoginState::Get()->RemoveObserver(this);
}
void NetworkConnectionHandler::Init(
NetworkStateHandler* network_state_handler,
NetworkConfigurationHandler* network_configuration_handler,
ManagedNetworkConfigurationHandler* managed_network_configuration_handler) {
if (LoginState::IsInitialized())
LoginState::Get()->AddObserver(this);
if (CertLoader::IsInitialized()) {
cert_loader_ = CertLoader::Get();
cert_loader_->AddObserver(this);
if (cert_loader_->certificates_loaded()) {
NET_LOG_EVENT("Certificates Loaded", "");
certificates_loaded_ = true;
}
} else {
// TODO(tbarzic): Require a mock or stub cert_loader in tests.
NET_LOG_EVENT("Certificate Loader not initialized", "");
certificates_loaded_ = true;
}
if (network_state_handler) {
network_state_handler_ = network_state_handler;
network_state_handler_->AddObserver(this, FROM_HERE);
}
configuration_handler_ = network_configuration_handler;
if (managed_network_configuration_handler) {
managed_configuration_handler_ = managed_network_configuration_handler;
managed_configuration_handler_->AddObserver(this);
}
// After this point, the NetworkConnectionHandler is fully initialized (all
// handler references set, observers registered, ...).
if (LoginState::IsInitialized())
LoggedInStateChanged();
}
void NetworkConnectionHandler::LoggedInStateChanged() {
LoginState* login_state = LoginState::Get();
if (logged_in_ || !login_state->IsUserLoggedIn())
return;
NET_LOG_EVENT("Logged In", "");
logged_in_ = true;
logged_in_time_ = base::TimeTicks::Now();
DisconnectIfPolicyRequires();
}
void NetworkConnectionHandler::OnCertificatesLoaded(
const net::CertificateList& cert_list,
bool initial_load) {
certificates_loaded_ = true;
NET_LOG_EVENT("Certificates Loaded", "");
if (queued_connect_) {
ConnectToQueuedNetwork();
} else if (initial_load) {
// Connecting to the "best" available network requires certificates to be
// loaded. Try to connect now.
ConnectToBestNetworkAfterLogin();
}
}
void NetworkConnectionHandler::PolicyChanged(const std::string& userhash) {
// Ignore user policies.
if (!userhash.empty())
return;
DisconnectIfPolicyRequires();
}
void NetworkConnectionHandler::ConnectToNetwork(
const std::string& service_path,
const base::Closure& success_callback,
const network_handler::ErrorCallback& error_callback,
bool check_error_state) {
NET_LOG_USER("ConnectToNetwork", service_path);
// Clear any existing queued connect request.
queued_connect_.reset();
if (HasConnectingNetwork(service_path)) {
NET_LOG_USER("Connect Request While Pending", service_path);
InvokeErrorCallback(service_path, error_callback, kErrorConnecting);
return;
}
// Check cached network state for connected, connecting, or unactivated
// networks. These states will not be affected by a recent configuration.
// Note: NetworkState may not exist for a network that was recently
// configured, in which case these checks do not apply anyway.
const NetworkState* network =
network_state_handler_->GetNetworkState(service_path);
if (network) {
// For existing networks, perform some immediate consistency checks.
if (network->IsConnectedState()) {
InvokeErrorCallback(service_path, error_callback, kErrorConnected);
return;
}
if (network->IsConnectingState()) {
InvokeErrorCallback(service_path, error_callback, kErrorConnecting);
return;
}
if (network->RequiresActivation()) {
InvokeErrorCallback(service_path, error_callback,
kErrorActivationRequired);
return;
}
if (check_error_state) {
const std::string& error = network->last_error();
if (error == shill::kErrorBadPassphrase) {
InvokeErrorCallback(service_path, error_callback, error);
return;
}
if (IsAuthenticationError(error)) {
InvokeErrorCallback(
service_path, error_callback, kErrorAuthenticationRequired);
return;
}
}
}
// If the network does not have a profile path, specify the correct default
// profile here and set it once connected. Otherwise leave it empty to
// indicate that it does not need to be set.
std::string profile_path;
if (!network || network->profile_path().empty())
profile_path = GetDefaultUserProfilePath(network);
// All synchronous checks passed, add |service_path| to connecting list.
pending_requests_.insert(std::make_pair(
service_path,
ConnectRequest(service_path, profile_path,
success_callback, error_callback)));
// Connect immediately to 'connectable' networks.
// TODO(stevenjb): Shill needs to properly set Connectable for VPN.
if (network && network->connectable() && network->type() != shill::kTypeVPN) {
CallShillConnect(service_path);
return;
}
// Request additional properties to check. VerifyConfiguredAndConnect will
// use only these properties, not cached properties, to ensure that they
// are up to date after any recent configuration.
configuration_handler_->GetProperties(
service_path,
base::Bind(&NetworkConnectionHandler::VerifyConfiguredAndConnect,
AsWeakPtr(), check_error_state),
base::Bind(&NetworkConnectionHandler::HandleConfigurationFailure,
AsWeakPtr(), service_path));
}
void NetworkConnectionHandler::DisconnectNetwork(
const std::string& service_path,
const base::Closure& success_callback,
const network_handler::ErrorCallback& error_callback) {
NET_LOG_USER("DisconnectNetwork", service_path);
const NetworkState* network =
network_state_handler_->GetNetworkState(service_path);
if (!network) {
InvokeErrorCallback(service_path, error_callback, kErrorNotFound);
return;
}
if (!network->IsConnectedState()) {
InvokeErrorCallback(service_path, error_callback, kErrorNotConnected);
return;
}
CallShillDisconnect(service_path, success_callback, error_callback);
}
bool NetworkConnectionHandler::HasConnectingNetwork(
const std::string& service_path) {
return pending_requests_.count(service_path) != 0;
}
bool NetworkConnectionHandler::HasPendingConnectRequest() {
return pending_requests_.size() > 0;
}
void NetworkConnectionHandler::NetworkListChanged() {
CheckAllPendingRequests();
}
void NetworkConnectionHandler::NetworkPropertiesUpdated(
const NetworkState* network) {
if (HasConnectingNetwork(network->path()))
CheckPendingRequest(network->path());
}
NetworkConnectionHandler::ConnectRequest*
NetworkConnectionHandler::GetPendingRequest(const std::string& service_path) {
std::map<std::string, ConnectRequest>::iterator iter =
pending_requests_.find(service_path);
return iter != pending_requests_.end() ? &(iter->second) : NULL;
}
// ConnectToNetwork implementation
void NetworkConnectionHandler::VerifyConfiguredAndConnect(
bool check_error_state,
const std::string& service_path,
const base::DictionaryValue& service_properties) {
NET_LOG_EVENT("VerifyConfiguredAndConnect", service_path);
// If 'passphrase_required' is still true, then the 'Passphrase' property
// has not been set to a minimum length value.
bool passphrase_required = false;
service_properties.GetBooleanWithoutPathExpansion(
shill::kPassphraseRequiredProperty, &passphrase_required);
if (passphrase_required) {
ErrorCallbackForPendingRequest(service_path, kErrorPassphraseRequired);
return;
}
std::string type, security;
service_properties.GetStringWithoutPathExpansion(shill::kTypeProperty, &type);
service_properties.GetStringWithoutPathExpansion(
shill::kSecurityProperty, &security);
bool connectable = false;
service_properties.GetBooleanWithoutPathExpansion(
shill::kConnectableProperty, &connectable);
// In case NetworkState was not available in ConnectToNetwork (e.g. it had
// been recently configured), we need to check Connectable again.
if (connectable && type != shill::kTypeVPN) {
// TODO(stevenjb): Shill needs to properly set Connectable for VPN.
CallShillConnect(service_path);
return;
}
// Get VPN provider type and host (required for configuration) and ensure
// that required VPN non-cert properties are set.
const base::DictionaryValue* provider_properties = NULL;
std::string vpn_provider_type, vpn_provider_host, vpn_client_cert_id;
if (type == shill::kTypeVPN) {
// VPN Provider values are read from the "Provider" dictionary, not the
// "Provider.Type", etc keys (which are used only to set the values).
if (service_properties.GetDictionaryWithoutPathExpansion(
shill::kProviderProperty, &provider_properties)) {
provider_properties->GetStringWithoutPathExpansion(
shill::kTypeProperty, &vpn_provider_type);
provider_properties->GetStringWithoutPathExpansion(
shill::kHostProperty, &vpn_provider_host);
provider_properties->GetStringWithoutPathExpansion(
shill::kL2tpIpsecClientCertIdProperty, &vpn_client_cert_id);
}
if (vpn_provider_type.empty() || vpn_provider_host.empty()) {
ErrorCallbackForPendingRequest(service_path, kErrorConfigurationRequired);
return;
}
}
scoped_ptr<NetworkUIData> ui_data =
shill_property_util::GetUIDataFromProperties(service_properties);
client_cert::ConfigType client_cert_type = client_cert::CONFIG_TYPE_NONE;
if (type == shill::kTypeVPN) {
if (vpn_provider_type == shill::kProviderOpenVpn) {
client_cert_type = client_cert::CONFIG_TYPE_OPENVPN;
} else {
// L2TP/IPSec only requires a certificate if one is specified in ONC
// or one was configured by the UI. Otherwise it is L2TP/IPSec with
// PSK and doesn't require a certificate.
//
// TODO(benchan): Modify shill to specify the authentication type via
// the kL2tpIpsecAuthenticationType property, so that Chrome doesn't need
// to deduce the authentication type based on the
// kL2tpIpsecClientCertIdProperty here (and also in VPNConfigView).
if (!vpn_client_cert_id.empty() ||
(ui_data && ui_data->certificate_type() != CLIENT_CERT_TYPE_NONE))
client_cert_type = client_cert::CONFIG_TYPE_IPSEC;
}
} else if (type == shill::kTypeWifi && security == shill::kSecurity8021x) {
client_cert_type = client_cert::CONFIG_TYPE_EAP;
}
base::DictionaryValue config_properties;
if (client_cert_type != client_cert::CONFIG_TYPE_NONE) {
// Note: if we get here then a certificate *may* be required, so we want
// to ensure that certificates have loaded successfully before attempting
// to connect.
// User must be logged in to connect to a network requiring a certificate.
if (!logged_in_ || !cert_loader_) {
NET_LOG_ERROR("User not logged in", "");
ErrorCallbackForPendingRequest(service_path, kErrorCertificateRequired);
return;
}
// If certificates have not been loaded yet, queue the connect request.
if (!certificates_loaded_) {
NET_LOG_EVENT("Certificates not loaded", "");
QueueConnectRequest(service_path);
return;
}
// If the client certificate must be configured, this will be set to a
// non-empty string.
std::string pkcs11_id;
// Check certificate properties in kUIDataProperty if configured.
// Note: Wifi/VPNConfigView set these properties explicitly, in which case
// only the TPM must be configured.
if (ui_data && ui_data->certificate_type() == CLIENT_CERT_TYPE_PATTERN) {
pkcs11_id = CertificateIsConfigured(ui_data.get());
// Ensure the certificate is available and configured.
if (!cert_loader_->IsHardwareBacked() || pkcs11_id.empty()) {
ErrorCallbackForPendingRequest(service_path, kErrorCertificateRequired);
return;
}
} else if (check_error_state &&
!client_cert::IsCertificateConfigured(client_cert_type,
service_properties)) {
// Network may not be configured.
ErrorCallbackForPendingRequest(service_path, kErrorConfigurationRequired);
return;
}
// The network may not be 'Connectable' because the TPM properties are not
// set up, so configure tpm slot/pin before connecting.
if (cert_loader_ && cert_loader_->IsHardwareBacked()) {
// Pass NULL if pkcs11_id is empty, so that it doesn't clear any
// previously configured client cert.
client_cert::SetShillProperties(
client_cert_type,
base::IntToString(cert_loader_->TPMTokenSlotID()),
TPMTokenLoader::Get()->tpm_user_pin(),
pkcs11_id.empty() ? NULL : &pkcs11_id,
&config_properties);
}
}
if (type == shill::kTypeVPN) {
// VPN may require a username, and/or passphrase to be set. (Check after
// ensuring that any required certificates are configured).
DCHECK(provider_properties);
if (VPNRequiresCredentials(
service_path, vpn_provider_type, *provider_properties)) {
NET_LOG_USER("VPN Requires Credentials", service_path);
ErrorCallbackForPendingRequest(service_path, kErrorConfigurationRequired);
return;
}
// If it's L2TP/IPsec PSK, there is no properties to configure, so proceed
// to connect.
if (client_cert_type == client_cert::CONFIG_TYPE_NONE) {
CallShillConnect(service_path);
return;
}
}
if (!config_properties.empty()) {
NET_LOG_EVENT("Configuring Network", service_path);
configuration_handler_->SetProperties(
service_path,
config_properties,
base::Bind(&NetworkConnectionHandler::CallShillConnect,
AsWeakPtr(),
service_path),
base::Bind(&NetworkConnectionHandler::HandleConfigurationFailure,
AsWeakPtr(),
service_path));
return;
}
// Otherwise, we probably still need to configure the network since
// 'Connectable' is false. If |check_error_state| is true, signal an
// error, otherwise attempt to connect to possibly gain additional error
// state from Shill (or in case 'Connectable' is improperly unset).
if (check_error_state)
ErrorCallbackForPendingRequest(service_path, kErrorConfigurationRequired);
else
CallShillConnect(service_path);
}
void NetworkConnectionHandler::QueueConnectRequest(
const std::string& service_path) {
ConnectRequest* request = GetPendingRequest(service_path);
if (!request) {
NET_LOG_ERROR("No pending request to queue", service_path);
return;
}
const int kMaxCertLoadTimeSeconds = 15;
base::TimeDelta dtime = base::TimeTicks::Now() - logged_in_time_;
if (dtime > base::TimeDelta::FromSeconds(kMaxCertLoadTimeSeconds)) {
NET_LOG_ERROR("Certificate load timeout", service_path);
InvokeErrorCallback(service_path,
request->error_callback,
kErrorCertLoadTimeout);
return;
}
NET_LOG_EVENT("Connect Request Queued", service_path);
queued_connect_.reset(new ConnectRequest(
service_path, request->profile_path,
request->success_callback, request->error_callback));
pending_requests_.erase(service_path);
// Post a delayed task to check to see if certificates have loaded. If they
// haven't, and queued_connect_ has not been cleared (e.g. by a successful
// connect request), cancel the request and notify the user.
base::MessageLoopProxy::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&NetworkConnectionHandler::CheckCertificatesLoaded,
AsWeakPtr()),
base::TimeDelta::FromSeconds(kMaxCertLoadTimeSeconds) - dtime);
}
void NetworkConnectionHandler::CheckCertificatesLoaded() {
if (certificates_loaded_)
return;
// If queued_connect_ has been cleared (e.g. another connect request occurred
// and wasn't queued), do nothing here.
if (!queued_connect_)
return;
// Otherwise, notify the user.
NET_LOG_ERROR("Certificate load timeout", queued_connect_->service_path);
InvokeErrorCallback(queued_connect_->service_path,
queued_connect_->error_callback,
kErrorCertLoadTimeout);
queued_connect_.reset();
}
void NetworkConnectionHandler::ConnectToQueuedNetwork() {
DCHECK(queued_connect_);
// Make a copy of |queued_connect_| parameters, because |queued_connect_|
// will get reset at the beginning of |ConnectToNetwork|.
std::string service_path = queued_connect_->service_path;
base::Closure success_callback = queued_connect_->success_callback;
network_handler::ErrorCallback error_callback =
queued_connect_->error_callback;
NET_LOG_EVENT("Connecting to Queued Network", service_path);
ConnectToNetwork(service_path, success_callback, error_callback,
false /* check_error_state */);
}
void NetworkConnectionHandler::CallShillConnect(
const std::string& service_path) {
NET_LOG_EVENT("Sending Connect Request to Shill", service_path);
network_state_handler_->ClearLastErrorForNetwork(service_path);
DBusThreadManager::Get()->GetShillServiceClient()->Connect(
dbus::ObjectPath(service_path),
base::Bind(&NetworkConnectionHandler::HandleShillConnectSuccess,
AsWeakPtr(), service_path),
base::Bind(&NetworkConnectionHandler::HandleShillConnectFailure,
AsWeakPtr(), service_path));
}
void NetworkConnectionHandler::HandleConfigurationFailure(
const std::string& service_path,
const std::string& error_name,
scoped_ptr<base::DictionaryValue> error_data) {
ConnectRequest* request = GetPendingRequest(service_path);
if (!request) {
NET_LOG_ERROR("HandleConfigurationFailure called with no pending request.",
service_path);
return;
}
network_handler::ErrorCallback error_callback = request->error_callback;
pending_requests_.erase(service_path);
if (!error_callback.is_null())
error_callback.Run(kErrorConfigureFailed, error_data.Pass());
}
void NetworkConnectionHandler::HandleShillConnectSuccess(
const std::string& service_path) {
ConnectRequest* request = GetPendingRequest(service_path);
if (!request) {
NET_LOG_ERROR("HandleShillConnectSuccess called with no pending request.",
service_path);
return;
}
request->connect_state = ConnectRequest::CONNECT_STARTED;
NET_LOG_EVENT("Connect Request Acknowledged", service_path);
// Do not call success_callback here, wait for one of the following
// conditions:
// * State transitions to a non connecting state indicating success or failure
// * Network is no longer in the visible list, indicating failure
CheckPendingRequest(service_path);
}
void NetworkConnectionHandler::HandleShillConnectFailure(
const std::string& service_path,
const std::string& dbus_error_name,
const std::string& dbus_error_message) {
ConnectRequest* request = GetPendingRequest(service_path);
if (!request) {
NET_LOG_ERROR("HandleShillConnectFailure called with no pending request.",
service_path);
return;
}
network_handler::ErrorCallback error_callback = request->error_callback;
pending_requests_.erase(service_path);
network_handler::ShillErrorCallbackFunction(
shill::kErrorConnectFailed, service_path, error_callback,
dbus_error_name, dbus_error_message);
}
void NetworkConnectionHandler::CheckPendingRequest(
const std::string service_path) {
ConnectRequest* request = GetPendingRequest(service_path);
DCHECK(request);
if (request->connect_state == ConnectRequest::CONNECT_REQUESTED)
return; // Request has not started, ignore update
const NetworkState* network =
network_state_handler_->GetNetworkState(service_path);
if (!network)
return; // NetworkState may not be be updated yet.
if (network->IsConnectingState()) {
request->connect_state = ConnectRequest::CONNECT_CONNECTING;
return;
}
if (network->IsConnectedState()) {
NET_LOG_EVENT("Connect Request Succeeded", service_path);
if (!request->profile_path.empty()) {
// If a profile path was specified, set it on a successful connection.
configuration_handler_->SetNetworkProfile(
service_path,
request->profile_path,
base::Bind(&base::DoNothing),
chromeos::network_handler::ErrorCallback());
}
if (!request->success_callback.is_null())
request->success_callback.Run();
pending_requests_.erase(service_path);
return;
}
if (network->connection_state() == shill::kStateIdle &&
request->connect_state != ConnectRequest::CONNECT_CONNECTING) {
// Connection hasn't started yet, keep waiting.
return;
}
// Network is neither connecting or connected; an error occurred.
std::string error_name; // 'Canceled' or 'Failed'
if (network->connection_state() == shill::kStateIdle &&
pending_requests_.size() > 1) {
// Another connect request canceled this one.
error_name = kErrorConnectCanceled;
} else {
error_name = shill::kErrorConnectFailed;
if (network->connection_state() != shill::kStateFailure) {
NET_LOG_ERROR("Unexpected State: " + network->connection_state(),
service_path);
}
}
network_handler::ErrorCallback error_callback = request->error_callback;
pending_requests_.erase(service_path);
if (error_callback.is_null()) {
NET_LOG_ERROR("Connect Error, no callback: " + error_name, service_path);
return;
}
InvokeErrorCallback(service_path, error_callback, error_name);
}
void NetworkConnectionHandler::CheckAllPendingRequests() {
for (std::map<std::string, ConnectRequest>::iterator iter =
pending_requests_.begin(); iter != pending_requests_.end(); ++iter) {
CheckPendingRequest(iter->first);
}
}
std::string NetworkConnectionHandler::CertificateIsConfigured(
NetworkUIData* ui_data) {
if (ui_data->certificate_pattern().Empty())
return std::string();
// Find the matching certificate.
scoped_refptr<net::X509Certificate> matching_cert =
client_cert::GetCertificateMatch(ui_data->certificate_pattern(),
cert_loader_->cert_list());
if (!matching_cert.get())
return std::string();
return CertLoader::GetPkcs11IdForCert(*matching_cert.get());
}
void NetworkConnectionHandler::ErrorCallbackForPendingRequest(
const std::string& service_path,
const std::string& error_name) {
ConnectRequest* request = GetPendingRequest(service_path);
if (!request) {
NET_LOG_ERROR("ErrorCallbackForPendingRequest with no pending request.",
service_path);
return;
}
// Remove the entry before invoking the callback in case it triggers a retry.
network_handler::ErrorCallback error_callback = request->error_callback;
pending_requests_.erase(service_path);
InvokeErrorCallback(service_path, error_callback, error_name);
}
// Disconnect
void NetworkConnectionHandler::CallShillDisconnect(
const std::string& service_path,
const base::Closure& success_callback,
const network_handler::ErrorCallback& error_callback) {
NET_LOG_USER("Disconnect Request", service_path);
DBusThreadManager::Get()->GetShillServiceClient()->Disconnect(
dbus::ObjectPath(service_path),
base::Bind(&NetworkConnectionHandler::HandleShillDisconnectSuccess,
AsWeakPtr(), service_path, success_callback),
base::Bind(&network_handler::ShillErrorCallbackFunction,
kErrorShillError, service_path, error_callback));
}
void NetworkConnectionHandler::HandleShillDisconnectSuccess(
const std::string& service_path,
const base::Closure& success_callback) {
NET_LOG_EVENT("Disconnect Request Sent", service_path);
if (!success_callback.is_null())
success_callback.Run();
}
void NetworkConnectionHandler::ConnectToBestNetworkAfterLogin() {
if (requested_connect_to_best_network_ || !applied_autoconnect_policy_ ||
!certificates_loaded_) {
return;
}
requested_connect_to_best_network_ = true;
network_state_handler_->ConnectToBestWifiNetwork();
}
void NetworkConnectionHandler::DisconnectIfPolicyRequires() {
if (applied_autoconnect_policy_ || !LoginState::Get()->IsUserLoggedIn())
return;
const base::DictionaryValue* global_network_config =
managed_configuration_handler_->GetGlobalConfigFromPolicy(std::string());
if (!global_network_config)
return;
applied_autoconnect_policy_ = true;
bool only_policy_autoconnect = false;
global_network_config->GetBooleanWithoutPathExpansion(
::onc::global_network_config::kAllowOnlyPolicyNetworksToAutoconnect,
&only_policy_autoconnect);
if (!only_policy_autoconnect)
return;
NET_LOG_DEBUG("DisconnectIfPolicyRequires",
"Disconnecting unmanaged and shared networks if any exist.");
// Get the list of unmanaged & shared networks that are connected or
// connecting.
NetworkStateHandler::NetworkStateList networks;
network_state_handler_->GetVisibleNetworkListByType(
NetworkTypePattern::Wireless(), &networks);
for (NetworkStateHandler::NetworkStateList::const_iterator it =
networks.begin();
it != networks.end();
++it) {
const NetworkState* network = *it;
if (!(network->IsConnectingState() || network->IsConnectedState()))
break; // Connected and connecting networks are listed first.
if (network->IsPrivate())
continue;
const bool network_is_policy_managed =
!network->profile_path().empty() && !network->guid().empty() &&
managed_configuration_handler_->FindPolicyByGuidAndProfile(
network->guid(), network->profile_path());
if (network_is_policy_managed)
continue;
NET_LOG_EVENT("Disconnect Forced by Policy", network->path());
CallShillDisconnect(
network->path(), base::Closure(), network_handler::ErrorCallback());
}
ConnectToBestNetworkAfterLogin();
}
} // namespace chromeos