blob: 98a22c574c1acba88e84d460a9290bb317a1f35a [file] [log] [blame]
// Copyright (c) 2012 The Chromium OS 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 "shill/manager.h"
#include <time.h>
#include <stdio.h>
#include <algorithm>
#include <set>
#include <string>
#include <vector>
#include <base/bind.h>
#include <base/file_util.h>
#include <base/memory/ref_counted.h>
#include <base/stringprintf.h>
#include <base/string_split.h>
#include <base/string_util.h>
#include <chromeos/dbus/service_constants.h>
#include "shill/adaptor_interfaces.h"
#include "shill/connection.h"
#include "shill/control_interface.h"
#include "shill/dbus_adaptor.h"
#include "shill/dbus_manager.h"
#include "shill/default_profile.h"
#include "shill/device.h"
#include "shill/device_info.h"
#include "shill/ephemeral_profile.h"
#include "shill/error.h"
#include "shill/event_dispatcher.h"
#include "shill/geolocation_info.h"
#include "shill/hook_table.h"
#include "shill/key_file_store.h"
#include "shill/logging.h"
#include "shill/profile.h"
#include "shill/property_accessor.h"
#include "shill/proxy_factory.h"
#include "shill/resolver.h"
#include "shill/service.h"
#include "shill/service_sorter.h"
#include "shill/vpn_service.h"
#include "shill/wifi.h"
#include "shill/wifi_service.h"
#include "shill/wimax_service.h"
using base::Bind;
using base::StringPrintf;
using base::Unretained;
using std::map;
using std::set;
using std::string;
using std::vector;
namespace shill {
namespace {
// Human-readable string describing the suspend delay that is registered
// with the power manager.
const char kSuspendDelayDescription[] = "shill";
} // namespace
// statics
const char Manager::kErrorNoDevice[] = "no wifi devices available";
const char Manager::kErrorTypeRequired[] = "must specify service type";
const char Manager::kErrorUnsupportedServiceType[] =
"service type is unsupported";
// This timeout should be less than the upstart job timeout, otherwise
// stats for termination actions might be lost.
const int Manager::kTerminationActionsTimeoutMilliseconds = 4500;
const char Manager::kPowerManagerKey[] = "manager";
Manager::Manager(ControlInterface *control_interface,
EventDispatcher *dispatcher,
Metrics *metrics,
GLib *glib,
const string &run_directory,
const string &storage_directory,
const string &user_storage_format)
: dispatcher_(dispatcher),
run_path_(FilePath(run_directory)),
storage_path_(FilePath(storage_directory)),
user_storage_format_(user_storage_format),
adaptor_(control_interface->CreateManagerAdaptor(this)),
device_info_(control_interface, dispatcher, metrics, this),
modem_info_(control_interface, dispatcher, metrics, this, glib),
vpn_provider_(control_interface, dispatcher, metrics, this),
wimax_provider_(control_interface, dispatcher, metrics, this),
resolver_(Resolver::GetInstance()),
running_(false),
connect_profiles_to_rpc_(true),
ephemeral_profile_(new EphemeralProfile(control_interface, this)),
control_interface_(control_interface),
metrics_(metrics),
glib_(glib),
use_startup_portal_list_(false),
termination_actions_(dispatcher),
suspend_delay_registered_(false),
suspend_delay_id_(0),
default_service_callback_tag_(0) {
HelpRegisterDerivedString(flimflam::kActiveProfileProperty,
&Manager::GetActiveProfileRpcIdentifier,
NULL);
store_.RegisterBool(flimflam::kArpGatewayProperty, &props_.arp_gateway);
HelpRegisterDerivedStrings(flimflam::kAvailableTechnologiesProperty,
&Manager::AvailableTechnologies,
NULL);
HelpRegisterDerivedString(flimflam::kCheckPortalListProperty,
&Manager::GetCheckPortalList,
&Manager::SetCheckPortalList);
HelpRegisterDerivedStrings(flimflam::kConnectedTechnologiesProperty,
&Manager::ConnectedTechnologies,
NULL);
store_.RegisterString(flimflam::kCountryProperty, &props_.country);
HelpRegisterDerivedString(flimflam::kDefaultTechnologyProperty,
&Manager::DefaultTechnology,
NULL);
HelpRegisterConstDerivedRpcIdentifier(
shill::kDefaultServiceProperty,
&Manager::GetDefaultServiceRpcIdentifier);
HelpRegisterConstDerivedRpcIdentifiers(flimflam::kDevicesProperty,
&Manager::EnumerateDevices);
HelpRegisterDerivedStrings(flimflam::kEnabledTechnologiesProperty,
&Manager::EnabledTechnologies,
NULL);
HelpRegisterDerivedString(shill::kIgnoredDNSSearchPathsProperty,
&Manager::GetIgnoredDNSSearchPaths,
&Manager::SetIgnoredDNSSearchPaths);
store_.RegisterString(shill::kLinkMonitorTechnologiesProperty,
&props_.link_monitor_technologies);
store_.RegisterBool(flimflam::kOfflineModeProperty, &props_.offline_mode);
store_.RegisterString(flimflam::kPortalURLProperty, &props_.portal_url);
store_.RegisterInt32(kPortalCheckIntervalProperty,
&props_.portal_check_interval_seconds);
HelpRegisterConstDerivedRpcIdentifiers(flimflam::kProfilesProperty,
&Manager::EnumerateProfiles);
store_.RegisterString(kHostNameProperty, &props_.host_name);
HelpRegisterDerivedString(flimflam::kStateProperty,
&Manager::CalculateState,
NULL);
HelpRegisterConstDerivedRpcIdentifiers(flimflam::kServicesProperty,
&Manager::EnumerateAvailableServices);
HelpRegisterConstDerivedRpcIdentifiers(flimflam::kServiceWatchListProperty,
&Manager::EnumerateWatchedServices);
store_.RegisterString(shill::kShortDNSTimeoutTechnologiesProperty,
&props_.short_dns_timeout_technologies);
HelpRegisterDerivedStrings(kUninitializedTechnologiesProperty,
&Manager::UninitializedTechnologies,
NULL);
// Set default technology order "by hand", to avoid invoking side
// effects of SetTechnologyOrder.
technology_order_.push_back(
Technology::IdentifierFromName(flimflam::kTypeVPN));
technology_order_.push_back(
Technology::IdentifierFromName(flimflam::kTypeEthernet));
technology_order_.push_back(
Technology::IdentifierFromName(flimflam::kTypeWifi));
technology_order_.push_back(
Technology::IdentifierFromName(flimflam::kTypeWimax));
technology_order_.push_back(
Technology::IdentifierFromName(flimflam::kTypeCellular));
SLOG(Manager, 2) << "Manager initialized.";
}
Manager::~Manager() {}
void Manager::AddDeviceToBlackList(const string &device_name) {
device_info_.AddDeviceToBlackList(device_name);
}
void Manager::Start() {
LOG(INFO) << "Manager started.";
dbus_manager_.reset(new DBusManager());
dbus_manager_->Start();
power_manager_.reset(
new PowerManager(dispatcher_, ProxyFactory::GetInstance()));
power_manager_->AddStateChangeCallback(
kPowerManagerKey,
Bind(&Manager::OnPowerStateChanged, AsWeakPtr()));
// TODO(ers): weak ptr for metrics_?
PowerManager::PowerStateCallback cb =
Bind(&Metrics::NotifyPowerStateChange, Unretained(metrics_));
power_manager_->AddStateChangeCallback(Metrics::kMetricPowerManagerKey, cb);
CHECK(file_util::CreateDirectory(run_path_)) << run_path_.value();
resolver_->set_path(run_path_.Append("resolv.conf"));
InitializeProfiles();
running_ = true;
adaptor_->UpdateRunning();
device_info_.Start();
modem_info_.Start();
vpn_provider_.Start();
wimax_provider_.Start();
}
void Manager::Stop() {
running_ = false;
// Persist device information to disk;
vector<DeviceRefPtr>::iterator devices_it;
for (devices_it = devices_.begin(); devices_it != devices_.end();
++devices_it) {
UpdateDevice(*devices_it);
}
// Persist profile, service information to disk.
vector<ProfileRefPtr>::iterator profiles_it;
for (profiles_it = profiles_.begin(); profiles_it != profiles_.end();
++profiles_it) {
// Since this happens in a loop, the current manager state is stored to
// all default profiles in the stack. This is acceptable because the
// only time multiple default profiles are loaded are during autotests.
(*profiles_it)->Save();
}
vector<ServiceRefPtr>::iterator services_it;
Error e;
for (services_it = services_.begin(); services_it != services_.end();
++services_it) {
(*services_it)->Disconnect(&e);
}
adaptor_->UpdateRunning();
wimax_provider_.Stop();
vpn_provider_.Stop();
modem_info_.Stop();
device_info_.Stop();
sort_services_task_.Cancel();
power_manager_.reset();
dbus_manager_.reset();
}
void Manager::InitializeProfiles() {
DCHECK(profiles_.empty());
// The default profile must go first on the stack.
CHECK(file_util::CreateDirectory(storage_path_)) << storage_path_.value();
scoped_refptr<DefaultProfile>
default_profile(new DefaultProfile(control_interface_,
this,
storage_path_,
DefaultProfile::kDefaultId,
props_));
CHECK(default_profile->InitStorage(glib_, Profile::kCreateOrOpenExisting,
NULL));
CHECK(LoadProperties(default_profile));
profiles_.push_back(default_profile.release());
Error error;
string path;
for (vector<string>::iterator it = startup_profiles_.begin();
it != startup_profiles_.end(); ++it)
PushProfile(*it, &path, &error);
}
void Manager::CreateProfile(const string &name, string *path, Error *error) {
SLOG(Manager, 2) << __func__ << " " << name;
Profile::Identifier ident;
if (!Profile::ParseIdentifier(name, &ident)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Invalid profile name " + name);
return;
}
for (vector<ProfileRefPtr>::const_iterator it = profiles_.begin();
it != profiles_.end();
++it) {
if ((*it)->MatchesIdentifier(ident)) {
Error::PopulateAndLog(error, Error::kAlreadyExists,
"Profile name " + name + " is already on stack");
*path = (*it)->GetRpcIdentifier();
return;
}
}
ProfileRefPtr profile;
if (ident.user.empty()) {
profile = new DefaultProfile(control_interface_,
this,
storage_path_,
ident.identifier,
props_);
} else {
profile = new Profile(control_interface_,
this,
ident,
user_storage_format_,
true);
}
if (!profile->InitStorage(glib_, Profile::kCreateNew, error)) {
// |error| will have been populated by InitStorage().
return;
}
// Save profile data out, and then let the scoped pointer fall out of scope.
if (!profile->Save()) {
Error::PopulateAndLog(error, Error::kInternalError,
"Profile name " + name + " could not be saved");
return;
}
*path = profile->GetRpcIdentifier();
}
void Manager::PushProfile(const string &name, string *path, Error *error) {
SLOG(Manager, 2) << __func__ << " " << name;
Profile::Identifier ident;
if (!Profile::ParseIdentifier(name, &ident)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Invalid profile name " + name);
return;
}
for (vector<ProfileRefPtr>::const_iterator it = profiles_.begin();
it != profiles_.end();
++it) {
if ((*it)->MatchesIdentifier(ident)) {
Error::PopulateAndLog(error, Error::kAlreadyExists,
"Profile name " + name + " is already on stack");
return;
}
}
ProfileRefPtr profile;
if (ident.user.empty()) {
// Allow a machine-wide-profile to be pushed on the stack only if the
// profile stack is empty, or if the topmost profile on the stack is
// also a machine-wide (non-user) profile.
if (!profiles_.empty() && !profiles_.back()->GetUser().empty()) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Cannot load non-default global profile " + name +
" on top of a user profile");
return;
}
scoped_refptr<DefaultProfile>
default_profile(new DefaultProfile(control_interface_,
this,
storage_path_,
ident.identifier,
props_));
if (!default_profile->InitStorage(glib_, Profile::kOpenExisting, error)) {
// |error| will have been populated by InitStorage().
return;
}
if (!LoadProperties(default_profile)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Could not load Manager properties from profile " +
name);
return;
}
profile = default_profile;
} else {
profile = new Profile(control_interface_,
this,
ident,
user_storage_format_,
connect_profiles_to_rpc_);
if (!profile->InitStorage(glib_, Profile::kOpenExisting, error)) {
// |error| will have been populated by InitStorage().
return;
}
}
profiles_.push_back(profile);
// Offer each registered Service the opportunity to join this new Profile.
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end(); ++it) {
profile->ConfigureService(*it);
}
// Shop the Profile contents around to Devices which can create
// non-visible services.
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
profile->ConfigureDevice(*it);
}
// Offer the Profile contents to the service/device providers which will
// create new services if necessary.
vpn_provider_.CreateServicesFromProfile(profile);
wimax_provider_.CreateServicesFromProfile(profile);
*path = profile->GetRpcIdentifier();
SortServices();
Error unused_error;
adaptor_->EmitStringsChanged(flimflam::kProfilesProperty,
EnumerateProfiles(&unused_error));
}
void Manager::PopProfileInternal() {
CHECK(!profiles_.empty());
ProfileRefPtr active_profile = profiles_.back();
profiles_.pop_back();
vector<ServiceRefPtr>::iterator it;
for (it = services_.begin(); it != services_.end();) {
if ((*it)->profile().get() != active_profile.get() ||
MatchProfileWithService(*it) ||
!UnloadService(&it)) {
LOG(ERROR) << "Skipping unload of service";
++it;
}
}
SortServices();
Error unused_error;
adaptor_->EmitStringsChanged(flimflam::kProfilesProperty,
EnumerateProfiles(&unused_error));
}
void Manager::PopProfile(const string &name, Error *error) {
SLOG(Manager, 2) << __func__ << " " << name;
// This signal is sent when a user logs out of a session. Regardless of
// whether we find their profile to remove, lets clear the network related
// logs.
MemoryLog::GetInstance()->Clear();
LOG(INFO) << "Cleared the memory log on logout event.";
Profile::Identifier ident;
if (profiles_.empty()) {
Error::PopulateAndLog(error, Error::kNotFound, "Profile stack is empty");
return;
}
ProfileRefPtr active_profile = profiles_.back();
if (!Profile::ParseIdentifier(name, &ident)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Invalid profile name " + name);
return;
}
if (!active_profile->MatchesIdentifier(ident)) {
Error::PopulateAndLog(error, Error::kNotSupported,
name + " is not the active profile");
return;
}
PopProfileInternal();
}
void Manager::PopAnyProfile(Error *error) {
SLOG(Manager, 2) << __func__;
Profile::Identifier ident;
if (profiles_.empty()) {
Error::PopulateAndLog(error, Error::kNotFound, "Profile stack is empty");
return;
}
PopProfileInternal();
}
void Manager::RemoveProfile(const string &name, Error *error) {
Profile::Identifier ident;
if (!Profile::ParseIdentifier(name, &ident)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Invalid profile name " + name);
return;
}
for (vector<ProfileRefPtr>::const_iterator it = profiles_.begin();
it != profiles_.end();
++it) {
if ((*it)->MatchesIdentifier(ident)) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Cannot remove profile name " + name +
" since it is on stack");
return;
}
}
ProfileRefPtr profile;
if (ident.user.empty()) {
profile = new DefaultProfile(control_interface_,
this,
storage_path_,
ident.identifier,
props_);
} else {
profile = new Profile(control_interface_,
this,
ident,
user_storage_format_,
false);
}
// |error| will have been populated if RemoveStorage fails.
profile->RemoveStorage(glib_, error);
return;
}
bool Manager::HandleProfileEntryDeletion(const ProfileRefPtr &profile,
const std::string &entry_name) {
bool moved_services = false;
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end();) {
if ((*it)->profile().get() == profile.get() &&
(*it)->GetStorageIdentifier() == entry_name) {
profile->AbandonService(*it);
if (MatchProfileWithService(*it) ||
!UnloadService(&it)) {
++it;
}
moved_services = true;
} else {
++it;
}
}
return moved_services;
}
ServiceRefPtr Manager::GetServiceWithStorageIdentifier(
const ProfileRefPtr &profile, const std::string &entry_name, Error *error) {
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end(); ++it) {
if ((*it)->profile().get() == profile.get() &&
(*it)->GetStorageIdentifier() == entry_name) {
return *it;
}
}
string error_string(
StringPrintf("Entry %s is not registered in the manager",
entry_name.c_str()));
if (error) {
error->Populate(Error::kNotFound, error_string);
}
SLOG(Manager, 2) << error_string;
return NULL;
}
ServiceRefPtr Manager::GetServiceWithGUID(
const std::string &guid, Error *error) {
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end(); ++it) {
if ((*it)->guid() == guid) {
return *it;
}
}
string error_string(
StringPrintf("Service wth GUID %s is not registered in the manager",
guid.c_str()));
if (error) {
error->Populate(Error::kNotFound, error_string);
}
SLOG(Manager, 2) << error_string;
return NULL;
}
ServiceRefPtr Manager::GetDefaultService() const {
SLOG(Manager, 2) << __func__;
if (services_.empty() || !services_[0]->connection().get()) {
SLOG(Manager, 2) << "In " << __func__ << ": No default connection exists.";
return NULL;
}
return services_[0];
}
RpcIdentifier Manager::GetDefaultServiceRpcIdentifier(Error */*error*/) {
ServiceRefPtr default_service = GetDefaultService();
return default_service ? default_service->GetRpcIdentifier() : "/";
}
bool Manager::IsTechnologyInList(const string &technology_list,
Technology::Identifier tech) const {
Error error;
vector<Technology::Identifier> technologies;
return Technology::GetTechnologyVectorFromString(technology_list,
&technologies,
&error) &&
std::find(technologies.begin(), technologies.end(), tech) !=
technologies.end();
}
bool Manager::IsPortalDetectionEnabled(Technology::Identifier tech) {
return IsTechnologyInList(GetCheckPortalList(NULL), tech);
}
void Manager::SetStartupPortalList(const string &portal_list) {
startup_portal_list_ = portal_list;
use_startup_portal_list_ = true;
}
bool Manager::IsServiceEphemeral(const ServiceConstRefPtr &service) const {
return service->profile() == ephemeral_profile_;
}
bool Manager::IsTechnologyShortDNSTimeoutEnabled(
Technology::Identifier technology) const {
return IsTechnologyInList(props_.short_dns_timeout_technologies, technology);
}
bool Manager::IsTechnologyLinkMonitorEnabled(
Technology::Identifier technology) const {
return IsTechnologyInList(props_.link_monitor_technologies, technology);
}
bool Manager::IsDefaultProfile(const StoreInterface *storage) const {
if (profiles_.empty()) {
return false;
}
return storage == profiles_.front()->GetConstStorage();
}
const ProfileRefPtr &Manager::ActiveProfile() const {
DCHECK_NE(profiles_.size(), 0U);
return profiles_.back();
}
bool Manager::IsActiveProfile(const ProfileRefPtr &profile) const {
return (profiles_.size() > 0 &&
ActiveProfile().get() == profile.get());
}
bool Manager::MoveServiceToProfile(const ServiceRefPtr &to_move,
const ProfileRefPtr &destination) {
const ProfileRefPtr from = to_move->profile();
SLOG(Manager, 2) << "Moving service "
<< to_move->unique_name()
<< " to profile "
<< destination->GetFriendlyName()
<< " from "
<< from->GetFriendlyName();
return destination->AdoptService(to_move) && from->AbandonService(to_move);
}
ProfileRefPtr Manager::LookupProfileByRpcIdentifier(
const string &profile_rpcid) {
for (vector<ProfileRefPtr>::iterator it = profiles_.begin();
it != profiles_.end();
++it) {
if (profile_rpcid == (*it)->GetRpcIdentifier()) {
return *it;
}
}
return NULL;
}
void Manager::SetProfileForService(const ServiceRefPtr &to_set,
const string &profile_rpcid,
Error *error) {
ProfileRefPtr profile = LookupProfileByRpcIdentifier(profile_rpcid);
if (!profile) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
StringPrintf("Unknown Profile %s requested for "
"Service", profile_rpcid.c_str()));
return;
}
if (!to_set->profile()) {
// We are being asked to set the profile property of a service that
// has never been registered. Now is a good time to register it.
RegisterService(to_set);
}
if (to_set->profile().get() == profile.get()) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Service is already connected to this profile");
} else if (!MoveServiceToProfile(to_set, profile)) {
Error::PopulateAndLog(error, Error::kInternalError,
"Unable to move service to profile");
}
}
void Manager::EnableTechnology(const std::string &technology_name,
Error *error,
const ResultCallback &callback) {
CHECK(error != NULL);
DCHECK(error->IsOngoing());
Technology::Identifier id = Technology::IdentifierFromName(technology_name);
if (id == Technology::kUnknown) {
error->Populate(Error::kInvalidArguments, "Unknown technology");
return;
}
bool deferred = false;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
DeviceRefPtr device = *it;
if (device->technology() == id && !device->enabled()) {
device->SetEnabledPersistent(true, error, callback);
// Continue with other devices even if one fails
// TODO(ers): Decide whether an error should be returned
// for the overall EnableTechnology operation if some
// devices succeed and some fail.
if (error->IsOngoing())
deferred = true;
}
}
// If no device has deferred work, then clear the error to
// communicate to the caller that all work is done.
if (!deferred)
error->Reset();
}
void Manager::DisableTechnology(const std::string &technology_name,
Error *error,
const ResultCallback &callback) {
CHECK(error != NULL);
DCHECK(error->IsOngoing());
Technology::Identifier id = Technology::IdentifierFromName(technology_name);
if (id == Technology::kUnknown) {
error->Populate(Error::kInvalidArguments, "Unknown technology");
return;
}
bool deferred = false;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
DeviceRefPtr device = *it;
if (device->technology() == id && device->enabled()) {
device->SetEnabledPersistent(false, error, callback);
// Continue with other devices even if one fails
// TODO(ers): Decide whether an error should be returned
// for the overall DisableTechnology operation if some
// devices succeed and some fail.
if (error->IsOngoing())
deferred = true;
}
}
// If no device has deferred work, then clear the error to
// communicate to the caller that all work is done.
if (!deferred)
error->Reset();
}
void Manager::UpdateEnabledTechnologies() {
Error error;
adaptor_->EmitStringsChanged(flimflam::kEnabledTechnologiesProperty,
EnabledTechnologies(&error));
}
void Manager::UpdateUninitializedTechnologies() {
Error error;
adaptor_->EmitStringsChanged(kUninitializedTechnologiesProperty,
UninitializedTechnologies(&error));
}
void Manager::RegisterDevice(const DeviceRefPtr &to_manage) {
LOG(INFO) << "Device " << to_manage->FriendlyName() << " registered.";
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
if (to_manage.get() == it->get())
return;
}
devices_.push_back(to_manage);
LoadDeviceFromProfiles(to_manage);
// If |to_manage| is new, it needs to be persisted.
UpdateDevice(to_manage);
// In normal usage, running_ will always be true when we are here, however
// unit tests sometimes do things in otherwise invalid states.
if (running_ && (to_manage->enabled_persistent() ||
to_manage->IsUnderlyingDeviceEnabled()))
to_manage->SetEnabled(true);
EmitDeviceProperties();
}
void Manager::DeregisterDevice(const DeviceRefPtr &to_forget) {
SLOG(Manager, 2) << __func__ << "(" << to_forget->FriendlyName() << ")";
vector<DeviceRefPtr>::iterator it;
for (it = devices_.begin(); it != devices_.end(); ++it) {
if (to_forget.get() == it->get()) {
SLOG(Manager, 2) << "Deregistered device: " << to_forget->UniqueName();
UpdateDevice(to_forget);
to_forget->SetEnabled(false);
devices_.erase(it);
EmitDeviceProperties();
return;
}
}
SLOG(Manager, 2) << __func__ << " unknown device: "
<< to_forget->UniqueName();
}
void Manager::LoadDeviceFromProfiles(const DeviceRefPtr &device) {
// We are applying device properties from the DefaultProfile, and adding the
// union of hidden services in all loaded profiles to the device.
for (vector<ProfileRefPtr>::iterator it = profiles_.begin();
it != profiles_.end(); ++it) {
// Load device configuration, if any exists, as well as hidden services.
(*it)->ConfigureDevice(device);
}
}
void Manager::EmitDeviceProperties() {
vector<DeviceRefPtr>::iterator it;
vector<string> device_paths;
for (it = devices_.begin(); it != devices_.end(); ++it) {
device_paths.push_back((*it)->GetRpcIdentifier());
}
adaptor_->EmitRpcIdentifierArrayChanged(flimflam::kDevicesProperty,
device_paths);
Error error;
adaptor_->EmitStringsChanged(flimflam::kAvailableTechnologiesProperty,
AvailableTechnologies(&error));
adaptor_->EmitStringsChanged(flimflam::kEnabledTechnologiesProperty,
EnabledTechnologies(&error));
adaptor_->EmitStringsChanged(kUninitializedTechnologiesProperty,
UninitializedTechnologies(&error));
}
bool Manager::HasService(const ServiceRefPtr &service) {
vector<ServiceRefPtr>::iterator it;
for (it = services_.begin(); it != services_.end(); ++it) {
if ((*it)->unique_name() == service->unique_name())
return true;
}
return false;
}
void Manager::RegisterService(const ServiceRefPtr &to_manage) {
SLOG(Manager, 2) << "Registering service " << to_manage->unique_name();
MatchProfileWithService(to_manage);
// Now add to OUR list.
vector<ServiceRefPtr>::iterator it;
for (it = services_.begin(); it != services_.end(); ++it) {
CHECK(to_manage->unique_name() != (*it)->unique_name());
}
services_.push_back(to_manage);
SortServices();
}
void Manager::DeregisterService(const ServiceRefPtr &to_forget) {
vector<ServiceRefPtr>::iterator it;
for (it = services_.begin(); it != services_.end(); ++it) {
if (to_forget->unique_name() == (*it)->unique_name()) {
DCHECK(!(*it)->connection());
(*it)->Unload();
(*it)->SetProfile(NULL);
services_.erase(it);
SortServices();
return;
}
}
}
bool Manager::UnloadService(vector<ServiceRefPtr>::iterator *service_iterator) {
if (!(**service_iterator)->Unload()) {
return false;
}
DCHECK(!(**service_iterator)->connection());
(**service_iterator)->SetProfile(NULL);
*service_iterator = services_.erase(*service_iterator);
return true;
}
void Manager::UpdateService(const ServiceRefPtr &to_update) {
CHECK(to_update);
LOG(INFO) << "Service " << to_update->unique_name() << " updated;"
<< " state: " << Service::ConnectStateToString(to_update->state())
<< " failure: "
<< Service::ConnectFailureToString(to_update->failure());
SLOG(Manager, 2) << "IsConnected(): " << to_update->IsConnected();
SLOG(Manager, 2) << "IsConnecting(): " << to_update->IsConnecting();
if (to_update->IsConnected()) {
to_update->MakeFavorite();
// Persists the updated favorite setting in the profile.
SaveServiceToProfile(to_update);
}
SortServices();
}
void Manager::UpdateDevice(const DeviceRefPtr &to_update) {
LOG(INFO) << "Device " << to_update->link_name() << " updated: "
<< (to_update->enabled_persistent() ? "enabled" : "disabled");
// Saves the device to the topmost profile that accepts it. Normally, this
// would be the only DefaultProfile at the bottom of the stack except in
// autotests that push a second test-only DefaultProfile.
for (vector<ProfileRefPtr>::reverse_iterator rit = profiles_.rbegin();
rit != profiles_.rend(); ++rit) {
if ((*rit)->UpdateDevice(to_update)) {
return;
}
}
}
void Manager::SaveServiceToProfile(const ServiceRefPtr &to_update) {
if (IsServiceEphemeral(to_update)) {
if (profiles_.empty()) {
LOG(ERROR) << "Cannot assign profile to service: no profiles exist!";
} else {
MoveServiceToProfile(to_update, profiles_.back());
}
} else {
to_update->profile()->UpdateService(to_update);
}
}
bool Manager::LoadProperties(const scoped_refptr<DefaultProfile> &profile) {
if (!profile->LoadManagerProperties(&props_)) {
return false;
}
SetIgnoredDNSSearchPaths(props_.ignored_dns_search_paths, NULL);
return true;
}
void Manager::AddTerminationAction(const string &name,
const base::Closure &start) {
if (termination_actions_.IsEmpty() && power_manager_.get()) {
power_manager_->AddSuspendDelayCallback(
kPowerManagerKey,
Bind(&Manager::OnSuspendImminent, AsWeakPtr()));
CHECK(!suspend_delay_registered_);
suspend_delay_registered_ = power_manager_->RegisterSuspendDelay(
base::TimeDelta::FromMilliseconds(
kTerminationActionsTimeoutMilliseconds),
kSuspendDelayDescription,
&suspend_delay_id_);
}
termination_actions_.Add(name, start);
}
void Manager::TerminationActionComplete(const string &name) {
termination_actions_.ActionComplete(name);
}
void Manager::RemoveTerminationAction(const string &name) {
if (termination_actions_.IsEmpty()) {
return;
}
termination_actions_.Remove(name);
if (termination_actions_.IsEmpty() && power_manager_.get()) {
if (suspend_delay_registered_) {
power_manager_->UnregisterSuspendDelay(suspend_delay_id_);
suspend_delay_registered_ = false;
suspend_delay_id_ = 0;
}
power_manager_->RemoveSuspendDelayCallback(kPowerManagerKey);
}
}
void Manager::RunTerminationActions(
const base::Callback<void(const Error &)> &done) {
LOG(INFO) << "Running termination actions.";
termination_actions_.Run(kTerminationActionsTimeoutMilliseconds, done);
}
bool Manager::RunTerminationActionsAndNotifyMetrics(
const base::Callback<void(const Error &)> &done,
Metrics::TerminationActionReason reason) {
if (termination_actions_.IsEmpty())
return false;
metrics_->NotifyTerminationActionsStarted(reason);
RunTerminationActions(done);
return true;
}
int Manager::RegisterDefaultServiceCallback(const ServiceCallback &callback) {
default_service_callbacks_[++default_service_callback_tag_] = callback;
return default_service_callback_tag_;
}
void Manager::DeregisterDefaultServiceCallback(int tag) {
default_service_callbacks_.erase(tag);
}
void Manager::NotifyDefaultServiceChanged(const ServiceRefPtr &service) {
for (map<int, ServiceCallback>::const_iterator it =
default_service_callbacks_.begin();
it != default_service_callbacks_.end(); ++it) {
it->second.Run(service);
}
metrics_->NotifyDefaultServiceChanged(service);
EmitDefaultService();
}
void Manager::EmitDefaultService() {
RpcIdentifier rpc_identifier = GetDefaultServiceRpcIdentifier(NULL);
if (rpc_identifier != default_service_rpc_identifier_) {
adaptor_->EmitRpcIdentifierChanged(shill::kDefaultServiceProperty,
rpc_identifier);
default_service_rpc_identifier_ = rpc_identifier;
}
}
void Manager::OnPowerStateChanged(
PowerManagerProxyDelegate::SuspendState power_state) {
if (power_state == PowerManagerProxyDelegate::kOn) {
vector<ServiceRefPtr>::iterator sit;
for (sit = services_.begin(); sit != services_.end(); ++sit) {
(*sit)->OnAfterResume();
}
SortServices();
vector<DeviceRefPtr>::iterator it;
for (it = devices_.begin(); it != devices_.end(); ++it) {
(*it)->OnAfterResume();
}
} else if (power_state == PowerManagerProxyDelegate::kMem) {
vector<DeviceRefPtr>::iterator it;
for (it = devices_.begin(); it != devices_.end(); ++it) {
(*it)->OnBeforeSuspend();
}
}
}
void Manager::OnSuspendImminent(int suspend_id) {
if (!RunTerminationActionsAndNotifyMetrics(
Bind(&Manager::OnSuspendActionsComplete, AsWeakPtr(), suspend_id),
Metrics::kTerminationActionReasonSuspend)) {
LOG(INFO) << "No suspend actions were run.";
power_manager_->ReportSuspendReadiness(suspend_delay_id_, suspend_id);
}
}
void Manager::OnSuspendActionsComplete(int suspend_id, const Error &error) {
LOG(INFO) << "Finished suspend actions. Result: " << error;
metrics_->NotifyTerminationActionsCompleted(
Metrics::kTerminationActionReasonSuspend, error.IsSuccess());
power_manager_->ReportSuspendReadiness(suspend_delay_id_, suspend_id);
}
void Manager::FilterByTechnology(Technology::Identifier tech,
vector<DeviceRefPtr> *found) {
CHECK(found);
vector<DeviceRefPtr>::iterator it;
for (it = devices_.begin(); it != devices_.end(); ++it) {
if ((*it)->technology() == tech)
found->push_back(*it);
}
}
ServiceRefPtr Manager::FindService(const string &name) {
vector<ServiceRefPtr>::iterator it;
for (it = services_.begin(); it != services_.end(); ++it) {
if (name == (*it)->unique_name())
return *it;
}
return NULL;
}
void Manager::HelpRegisterConstDerivedRpcIdentifier(
const string &name,
RpcIdentifier(Manager::*get)(Error *error)) {
store_.RegisterDerivedRpcIdentifier(
name,
RpcIdentifierAccessor(
new CustomAccessor<Manager, RpcIdentifier>(this, get, NULL)));
}
void Manager::HelpRegisterConstDerivedRpcIdentifiers(
const string &name,
RpcIdentifiers(Manager::*get)(Error *error)) {
store_.RegisterDerivedRpcIdentifiers(
name,
RpcIdentifiersAccessor(
new CustomAccessor<Manager, RpcIdentifiers>(this, get, NULL)));
}
void Manager::HelpRegisterDerivedString(
const string &name,
string(Manager::*get)(Error *),
void(Manager::*set)(const string&, Error *)) {
store_.RegisterDerivedString(
name,
StringAccessor(new CustomAccessor<Manager, string>(this, get, set)));
}
void Manager::HelpRegisterDerivedStrings(
const string &name,
Strings(Manager::*get)(Error *),
void(Manager::*set)(const Strings &, Error *)) {
store_.RegisterDerivedStrings(
name,
StringsAccessor(new CustomAccessor<Manager, Strings>(this, get, set)));
}
void Manager::SortServices() {
// We might be called in the middle of a series of events that
// may result in multiple calls to Manager::SortServices, or within
// an outer loop that may also be traversing the services_ list.
// Defer this work to the event loop.
if (sort_services_task_.IsCancelled()) {
sort_services_task_.Reset(Bind(&Manager::SortServicesTask, AsWeakPtr()));
dispatcher_->PostTask(sort_services_task_.callback());
}
}
void Manager::SortServicesTask() {
SLOG(Manager, 4) << "In " << __func__;
sort_services_task_.Cancel();
ServiceRefPtr default_service;
if (!services_.empty()) {
// Keep track of the service that is the candidate for the default
// service. We have not yet tested to see if this service has a
// connection.
default_service = services_[0];
}
sort(services_.begin(), services_.end(), ServiceSorter(technology_order_));
adaptor_->EmitRpcIdentifierArrayChanged(flimflam::kServicesProperty,
EnumerateAvailableServices(NULL));
adaptor_->EmitRpcIdentifierArrayChanged(flimflam::kServiceWatchListProperty,
EnumerateWatchedServices(NULL));
Error error;
adaptor_->EmitStringsChanged(flimflam::kConnectedTechnologiesProperty,
ConnectedTechnologies(&error));
adaptor_->EmitStringChanged(flimflam::kDefaultTechnologyProperty,
DefaultTechnology(&error));
if (!services_.empty()) {
ConnectionRefPtr default_connection = default_service->connection();
if (default_connection &&
services_[0]->connection() != default_connection) {
default_connection->SetIsDefault(false);
}
if (services_[0]->connection()) {
services_[0]->connection()->SetIsDefault(true);
default_service = services_[0];
} else {
default_service = NULL;
}
}
NotifyDefaultServiceChanged(default_service);
AutoConnect();
}
bool Manager::MatchProfileWithService(const ServiceRefPtr &service) {
vector<ProfileRefPtr>::reverse_iterator it;
for (it = profiles_.rbegin(); it != profiles_.rend(); ++it) {
if ((*it)->ConfigureService(service)) {
break;
}
}
if (it == profiles_.rend()) {
ephemeral_profile_->AdoptService(service);
return false;
}
return true;
}
void Manager::AutoConnect() {
if (!running_) {
LOG(INFO) << "Auto-connect suppressed -- not running.";
return;
}
if (power_manager_.get() &&
power_manager_->power_state() != PowerManagerProxyDelegate::kOn &&
power_manager_->power_state() != PowerManagerProxyDelegate::kUnknown) {
LOG(INFO) << "Auto-connect suppressed -- power state is not 'on'.";
return;
}
if (services_.empty()) {
LOG(INFO) << "Auto-connect suppressed -- no services.";
return;
}
if (SLOG_IS_ON(Manager, 4)) {
SLOG(Manager, 4) << "Sorted service list: ";
for (size_t i = 0; i < services_.size(); ++i) {
ServiceRefPtr service = services_[i];
const char *compare_reason = NULL;
if (i + 1 < services_.size()) {
Service::Compare(
service, services_[i+1], technology_order_, &compare_reason);
} else {
compare_reason = "last";
}
SLOG(Manager, 4) << "Service " << service->unique_name()
<< " IsConnected: " << service->IsConnected()
<< " IsConnecting: " << service->IsConnecting()
<< " IsFailed: " << service->IsFailed()
<< " connectable: " << service->connectable()
<< " auto_connect: " << service->auto_connect()
<< " favorite: " << service->favorite()
<< " priority: " << service->priority()
<< " security_level: " << service->security_level()
<< " strength: " << service->strength()
<< " sorted: " << compare_reason;
}
}
// Perform auto-connect.
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end(); ++it) {
if ((*it)->auto_connect()) {
(*it)->AutoConnect();
}
}
}
bool Manager::IsOnline() const {
// |services_| is sorted such that connected services are first.
return !services_.empty() && services_.front()->IsConnected();
}
string Manager::CalculateState(Error */*error*/) {
return IsOnline() ? flimflam::kStateOnline : flimflam::kStateOffline;
}
vector<string> Manager::AvailableTechnologies(Error */*error*/) {
set<string> unique_technologies;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
unique_technologies.insert(
Technology::NameFromIdentifier((*it)->technology()));
}
return vector<string>(unique_technologies.begin(), unique_technologies.end());
}
vector<string> Manager::ConnectedTechnologies(Error */*error*/) {
set<string> unique_technologies;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
if ((*it)->IsConnected())
unique_technologies.insert(
Technology::NameFromIdentifier((*it)->technology()));
}
return vector<string>(unique_technologies.begin(), unique_technologies.end());
}
string Manager::DefaultTechnology(Error */*error*/) {
return (!services_.empty() && services_[0]->IsConnected()) ?
services_[0]->GetTechnologyString() : "";
}
vector<string> Manager::EnabledTechnologies(Error */*error*/) {
set<string> unique_technologies;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
if ((*it)->enabled())
unique_technologies.insert(
Technology::NameFromIdentifier((*it)->technology()));
}
return vector<string>(unique_technologies.begin(), unique_technologies.end());
}
vector<string> Manager::UninitializedTechnologies(Error */*error*/) {
return device_info_.GetUninitializedTechnologies();
}
RpcIdentifiers Manager::EnumerateDevices(Error */*error*/) {
RpcIdentifiers device_rpc_ids;
for (vector<DeviceRefPtr>::const_iterator it = devices_.begin();
it != devices_.end();
++it) {
device_rpc_ids.push_back((*it)->GetRpcIdentifier());
}
return device_rpc_ids;
}
RpcIdentifiers Manager::EnumerateProfiles(Error */*error*/) {
RpcIdentifiers profile_rpc_ids;
for (vector<ProfileRefPtr>::const_iterator it = profiles_.begin();
it != profiles_.end();
++it) {
profile_rpc_ids.push_back((*it)->GetRpcIdentifier());
}
return profile_rpc_ids;
}
vector<string> Manager::EnumerateAvailableServices(Error */*error*/) {
vector<string> service_rpc_ids;
for (vector<ServiceRefPtr>::const_iterator it = services_.begin();
it != services_.end();
++it) {
if ((*it)->IsVisible()) {
service_rpc_ids.push_back((*it)->GetRpcIdentifier());
}
}
return service_rpc_ids;
}
RpcIdentifiers Manager::EnumerateWatchedServices(Error */*error*/) {
vector<string> service_rpc_ids;
for (vector<ServiceRefPtr>::const_iterator it = services_.begin();
it != services_.end();
++it) {
if ((*it)->IsVisible() && (*it)->IsActive(NULL)) {
service_rpc_ids.push_back((*it)->GetRpcIdentifier());
}
}
return service_rpc_ids;
}
string Manager::GetActiveProfileRpcIdentifier(Error */*error*/) {
return ActiveProfile()->GetRpcIdentifier();
}
string Manager::GetCheckPortalList(Error */*error*/) {
return use_startup_portal_list_ ? startup_portal_list_ :
props_.check_portal_list;
}
void Manager::SetCheckPortalList(const string &portal_list, Error *error) {
props_.check_portal_list = portal_list;
use_startup_portal_list_ = false;
}
string Manager::GetIgnoredDNSSearchPaths(Error */*error*/) {
return props_.ignored_dns_search_paths;
}
void Manager::SetIgnoredDNSSearchPaths(const string &ignored_paths,
Error */*error*/) {
props_.ignored_dns_search_paths = ignored_paths;
vector<string> ignored_path_list;
if (!ignored_paths.empty()) {
base::SplitString(ignored_paths, ',', &ignored_path_list);
}
resolver_->set_ignored_search_list(ignored_path_list);
}
// called via RPC (e.g., from ManagerDBusAdaptor)
ServiceRefPtr Manager::GetService(const KeyValueStore &args, Error *error) {
if (args.ContainsString(flimflam::kTypeProperty) &&
args.GetString(flimflam::kTypeProperty) == flimflam::kTypeVPN) {
// GetService on a VPN service should actually perform ConfigureService.
// TODO(pstew): Remove this hack and change Chrome to use ConfigureService
// instead, when we no longer need to support flimflam. crosbug.com/31523
return ConfigureService(args, error);
}
ServiceRefPtr service = GetServiceInner(args, error);
if (service) {
// Configures the service using the rest of the passed-in arguments.
service->Configure(args, error);
}
return service;
}
ServiceRefPtr Manager::GetServiceInner(const KeyValueStore &args,
Error *error) {
if (args.ContainsString(flimflam::kGuidProperty)) {
SLOG(Manager, 2) << __func__ << ": searching by GUID";
ServiceRefPtr service =
GetServiceWithGUID(args.GetString(flimflam::kGuidProperty), NULL);
if (service) {
return service;
}
}
if (!args.ContainsString(flimflam::kTypeProperty)) {
Error::PopulateAndLog(error, Error::kInvalidArguments, kErrorTypeRequired);
return NULL;
}
string type = args.GetString(flimflam::kTypeProperty);
if (type == flimflam::kTypeVPN) {
SLOG(Manager, 2) << __func__ << ": getting VPN Service";
return vpn_provider_.GetService(args, error);
}
if (type == flimflam::kTypeWifi) {
SLOG(Manager, 2) << __func__ << ": getting WiFi Service";
return GetWifiService(args, error);
}
if (type == flimflam::kTypeWimax) {
SLOG(Manager, 2) << __func__ << ": getting WiMAX Service";
return wimax_provider_.GetService(args, error);
}
Error::PopulateAndLog(error, Error::kNotSupported,
kErrorUnsupportedServiceType);
return NULL;
}
WiFiServiceRefPtr Manager::GetWifiService(const KeyValueStore &args,
Error *error) {
vector<DeviceRefPtr> wifi_devices;
FilterByTechnology(Technology::kWifi, &wifi_devices);
if (wifi_devices.empty()) {
Error::PopulateAndLog(error, Error::kInvalidArguments, kErrorNoDevice);
return NULL;
} else {
WiFi *wifi = dynamic_cast<WiFi *>(wifi_devices.front().get());
CHECK(wifi);
return wifi->GetService(args, error);
}
}
// called via RPC (e.g., from ManagerDBusAdaptor)
ServiceRefPtr Manager::ConfigureService(const KeyValueStore &args,
Error *error) {
ProfileRefPtr profile = ActiveProfile();
bool profile_specified = args.ContainsString(flimflam::kProfileProperty);
if (profile_specified) {
string profile_rpcid = args.GetString(flimflam::kProfileProperty);
profile = LookupProfileByRpcIdentifier(profile_rpcid);
if (!profile) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Invalid profile name " + profile_rpcid);
return NULL;
}
}
ServiceRefPtr service = GetServiceInner(args, error);
if (error->IsFailure() || !service) {
LOG(ERROR) << "GetService failed; returning upstream error.";
return NULL;
}
// First pull in any stored configuration associated with the service.
if (service->profile() == profile) {
SLOG(Manager, 2) << __func__ << ": service " << service->unique_name()
<< " is already a member of profile "
<< profile->GetFriendlyName()
<< " so a load is not necessary.";
} else if (profile->LoadService(service)) {
SLOG(Manager, 2) << __func__ << ": applied stored information from profile "
<< profile->GetFriendlyName()
<< " into service "
<< service->unique_name();
} else {
SLOG(Manager, 2) << __func__ << ": no previous information in profile "
<< profile->GetFriendlyName()
<< " exists for service "
<< service->unique_name();
}
// Overlay this with the passed-in configuration parameters.
service->Configure(args, error);
// Overwrite the profile data with the resulting configured service.
if (!profile->UpdateService(service)) {
Error::PopulateAndLog(error, Error::kInternalError,
"Unable to save service to profile");
return NULL;
}
if (HasService(service)) {
// If the service has been registered (it may not be -- as is the case
// with invisible WiFi networks), we can now transfer the service between
// profiles.
if (IsServiceEphemeral(service) ||
(profile_specified && service->profile() != profile)) {
SLOG(Manager, 2) << "Moving service to profile "
<< profile->GetFriendlyName();
if (!MoveServiceToProfile(service, profile)) {
Error::PopulateAndLog(error, Error::kInternalError,
"Unable to move service to profile");
}
}
}
// Notify the service that a profile has been configured for it.
service->OnProfileConfigured();
return service;
}
ServiceRefPtr Manager::FindMatchingService(const KeyValueStore &args,
Error *error) {
for (vector<ServiceRefPtr>::iterator it = services_.begin();
it != services_.end(); ++it) {
if ((*it)->DoPropertiesMatch(args)) {
return *it;
}
}
error->Populate(Error::kNotFound, "Matching service was not found");
return NULL;
}
map<string, GeolocationInfos> Manager::GetNetworksForGeolocation() {
map<string, GeolocationInfos> networks;
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
switch((*it)->technology()) {
// TODO(gauravsh): crosbug.com/35736 Need a strategy for combining
// geolocation objects from multiple devices of the same technolgy.
// Currently, we just pick the geolocation objects from the first found
// device of each supported technology type.
case Technology::kWifi:
if (!ContainsKey(networks, kGeoWifiAccessPointsProperty))
networks[kGeoWifiAccessPointsProperty] =
(*it)->GetGeolocationObjects();
break;
case Technology::kCellular:
if (!ContainsKey(networks, kGeoCellTowersProperty))
networks[kGeoCellTowersProperty] = (*it)->GetGeolocationObjects();
break;
default:
// Ignore other technologies.
break;
};
}
return networks;
};
void Manager::RecheckPortal(Error */*error*/) {
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
if ((*it)->RequestPortalDetection()) {
// Only start Portal Detection on the device with the default connection.
// We will get a "true" return value when we've found that device, and
// can end our loop early as a result.
break;
}
}
}
void Manager::RecheckPortalOnService(const ServiceRefPtr &service) {
for (vector<DeviceRefPtr>::iterator it = devices_.begin();
it != devices_.end(); ++it) {
if ((*it)->IsConnectedToService(service)) {
// As opposed to RecheckPortal() above, we explicitly stop and then
// restart portal detection, since the service to recheck was explicitly
// specified.
(*it)->RestartPortalDetection();
break;
}
}
}
// called via RPC (e.g., from ManagerDBusAdaptor)
void Manager::RequestScan(const string &technology, Error *error) {
if (technology == flimflam::kTypeWifi || technology == "") {
vector<DeviceRefPtr> wifi_devices;
FilterByTechnology(Technology::kWifi, &wifi_devices);
for (vector<DeviceRefPtr>::iterator it = wifi_devices.begin();
it != wifi_devices.end();
++it) {
(*it)->Scan(error);
}
} else {
// TODO(quiche): support scanning for other technologies?
Error::PopulateAndLog(error, Error::kInvalidArguments,
"Unrecognized technology " + technology);
}
}
string Manager::GetTechnologyOrder() {
vector<string> technology_names;
for (vector<Technology::Identifier>::iterator it = technology_order_.begin();
it != technology_order_.end();
++it) {
technology_names.push_back(Technology::NameFromIdentifier(*it));
}
return JoinString(technology_names, ',');
}
void Manager::SetTechnologyOrder(const string &order, Error *error) {
vector<Technology::Identifier> new_order;
SLOG(Manager, 2) << "Setting technology order to " << order;
if (!Technology::GetTechnologyVectorFromString(order, &new_order, error)) {
return;
}
technology_order_ = new_order;
SortServices();
}
} // namespace shill