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gerrit-public.fairphone.software / platform / system / connectivity / shill / e6e8e499adf14d9408a7e07f54b58d71ab3a9502 / . / service.cc
blob: 1c92e766e6ed3121cb860dea7f8a78cb7273f1e7 [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/service.h"
#include <time.h>
#include <stdio.h>
#include <map>
#include <string>
#include <vector>
#include <base/memory/scoped_ptr.h>
#include <base/string_number_conversions.h>
#include <base/stringprintf.h>
#include <chromeos/dbus/service_constants.h>
#include "shill/connection.h"
#include "shill/control_interface.h"
#include "shill/diagnostics_reporter.h"
#include "shill/error.h"
#include "shill/http_proxy.h"
#include "shill/logging.h"
#include "shill/manager.h"
#include "shill/metrics.h"
#include "shill/profile.h"
#include "shill/property_accessor.h"
#include "shill/refptr_types.h"
#include "shill/service_dbus_adaptor.h"
#include "shill/sockets.h"
#include "shill/store_interface.h"
using base::Bind;
using std::deque;
using std::map;
using std::string;
using std::vector;
namespace shill {
const char Service::kAutoConnBusy[] = "busy";
const char Service::kAutoConnConnected[] = "connected";
const char Service::kAutoConnConnecting[] = "connecting";
const char Service::kAutoConnExplicitDisconnect[] = "explicitly disconnected";
const char Service::kAutoConnNotConnectable[] = "not connectable";
const char Service::kAutoConnThrottled[] = "throttled";
const size_t Service::kEAPMaxCertificationElements = 10;
const char Service::kCheckPortalAuto[] = "auto";
const char Service::kCheckPortalFalse[] = "false";
const char Service::kCheckPortalTrue[] = "true";
const int Service::kPriorityNone = 0;
const char Service::kServiceSortAutoConnect[] = "AutoConnect";
const char Service::kServiceSortConnectable[] = "Connectable";
const char Service::kServiceSortDependency[] = "Dependency";
const char Service::kServiceSortFavorite[] = "Favorite";
const char Service::kServiceSortIsConnected[] = "IsConnected";
const char Service::kServiceSortIsConnecting[] = "IsConnecting";
const char Service::kServiceSortIsFailed[] = "IsFailed";
const char Service::kServiceSortIsPortalled[] = "IsPortal";
const char Service::kServiceSortPriority[] = "Priority";
const char Service::kServiceSortSecurityEtc[] = "SecurityEtc";
const char Service::kServiceSortTechnology[] = "Technology";
const char Service::kServiceSortUniqueName[] = "UniqueName";
const char Service::kStorageAutoConnect[] = "AutoConnect";
const char Service::kStorageCheckPortal[] = "CheckPortal";
const char Service::kStorageEapAnonymousIdentity[] = "EAP.AnonymousIdentity";
const char Service::kStorageEapCACert[] = "EAP.CACert";
const char Service::kStorageEapCACertID[] = "EAP.CACertID";
const char Service::kStorageEapCACertNSS[] = "EAP.CACertNSS";
const char Service::kStorageEapCertID[] = "EAP.CertID";
const char Service::kStorageEapClientCert[] = "EAP.ClientCert";
const char Service::kStorageEapEap[] = "EAP.EAP";
const char Service::kStorageEapIdentity[] = "EAP.Identity";
const char Service::kStorageEapInnerEap[] = "EAP.InnerEAP";
const char Service::kStorageEapKeyID[] = "EAP.KeyID";
const char Service::kStorageEapKeyManagement[] = "EAP.KeyMgmt";
const char Service::kStorageEapPIN[] = "EAP.PIN";
const char Service::kStorageEapPassword[] = "EAP.Password";
const char Service::kStorageEapPrivateKey[] = "EAP.PrivateKey";
const char Service::kStorageEapPrivateKeyPassword[] = "EAP.PrivateKeyPassword";
const char Service::kStorageEapUseSystemCAs[] = "EAP.UseSystemCAs";
const char Service::kStorageError[] = "Error";
const char Service::kStorageFavorite[] = "Favorite";
const char Service::kStorageGUID[] = "GUID";
const char Service::kStorageHasEverConnected[] = "HasEverConnected";
const char Service::kStorageName[] = "Name";
const char Service::kStoragePriority[] = "Priority";
const char Service::kStorageProxyConfig[] = "ProxyConfig";
const char Service::kStorageSaveCredentials[] = "SaveCredentials";
const char Service::kStorageType[] = "Type";
const char Service::kStorageUIData[] = "UIData";
const uint8 Service::kStrengthMax = 100;
const uint8 Service::kStrengthMin = 0;
const uint64 Service::kMaxAutoConnectCooldownTimeMilliseconds = 30 * 60 * 1000;
const uint64 Service::kMinAutoConnectCooldownTimeMilliseconds = 1000;
const uint64 Service::kAutoConnectCooldownBackoffFactor = 2;
const int Service::kDisconnectsMonitorSeconds = 5 * 60;
const int Service::kMisconnectsMonitorSeconds = 5 * 60;
const int Service::kReportDisconnectsThreshold = 2;
const int Service::kReportMisconnectsThreshold = 3;
const int Service::kMaxDisconnectEventHistory = 20;
// static
unsigned int Service::serial_number_ = 0;
Service::Service(ControlInterface *control_interface,
EventDispatcher *dispatcher,
Metrics *metrics,
Manager *manager,
Technology::Identifier technology)
: state_(kStateIdle),
failure_(kFailureUnknown),
auto_connect_(false),
check_portal_(kCheckPortalAuto),
connectable_(false),
error_(ConnectFailureToString(failure_)),
explicitly_disconnected_(false),
favorite_(false),
priority_(kPriorityNone),
security_level_(0),
strength_(0),
save_credentials_(true),
technology_(technology),
failed_time_(0),
has_ever_connected_(false),
auto_connect_cooldown_milliseconds_(0),
dispatcher_(dispatcher),
unique_name_(base::UintToString(serial_number_++)),
friendly_name_(unique_name_),
adaptor_(control_interface->CreateServiceAdaptor(this)),
metrics_(metrics),
manager_(manager),
sockets_(new Sockets()),
weak_ptr_factory_(this),
time_(Time::GetInstance()),
diagnostics_reporter_(DiagnosticsReporter::GetInstance()) {
HelpRegisterDerivedBool(flimflam::kAutoConnectProperty,
&Service::GetAutoConnect,
&Service::SetAutoConnect);
// flimflam::kActivationStateProperty: Registered in CellularService
// flimflam::kCellularApnProperty: Registered in CellularService
// flimflam::kCellularLastGoodApnProperty: Registered in CellularService
// flimflam::kNetworkTechnologyProperty: Registered in CellularService
// flimflam::kOperatorNameProperty: DEPRECATED
// flimflam::kOperatorCodeProperty: DEPRECATED
// flimflam::kRoamingStateProperty: Registered in CellularService
// flimflam::kServingOperatorProperty: Registered in CellularService
// flimflam::kPaymentURLProperty: Registered in CellularService
HelpRegisterDerivedString(flimflam::kCheckPortalProperty,
&Service::GetCheckPortal,
&Service::SetCheckPortal);
store_.RegisterConstBool(flimflam::kConnectableProperty, &connectable_);
HelpRegisterDerivedRpcIdentifier(flimflam::kDeviceProperty,
&Service::GetDeviceRpcId,
NULL);
store_.RegisterString(flimflam::kGuidProperty, &guid_);
store_.RegisterString(flimflam::kEapIdentityProperty, &eap_.identity);
store_.RegisterString(flimflam::kEAPEAPProperty, &eap_.eap);
store_.RegisterString(flimflam::kEapPhase2AuthProperty, &eap_.inner_eap);
store_.RegisterString(flimflam::kEapAnonymousIdentityProperty,
&eap_.anonymous_identity);
store_.RegisterString(flimflam::kEAPClientCertProperty, &eap_.client_cert);
store_.RegisterString(flimflam::kEAPCertIDProperty, &eap_.cert_id);
store_.RegisterString(flimflam::kEapPrivateKeyProperty, &eap_.private_key);
HelpRegisterWriteOnlyDerivedString(flimflam::kEapPrivateKeyPasswordProperty,
&Service::SetEAPPrivateKeyPassword,
NULL,
&eap_.private_key_password);
store_.RegisterString(flimflam::kEAPKeyIDProperty, &eap_.key_id);
store_.RegisterString(flimflam::kEapCaCertProperty, &eap_.ca_cert);
store_.RegisterString(flimflam::kEapCaCertIDProperty, &eap_.ca_cert_id);
store_.RegisterString(flimflam::kEapCaCertNssProperty, &eap_.ca_cert_nss);
store_.RegisterString(flimflam::kEAPPINProperty, &eap_.pin);
HelpRegisterWriteOnlyDerivedString(flimflam::kEapPasswordProperty,
&Service::SetEAPPassword,
NULL,
&eap_.password);
store_.RegisterString(flimflam::kEapKeyMgmtProperty, &eap_.key_management);
store_.RegisterBool(flimflam::kEapUseSystemCAsProperty, &eap_.use_system_cas);
store_.RegisterConstStrings(shill::kEapRemoteCertificationProperty,
&eap_.remote_certification);
store_.RegisterString(shill::kEapSubjectMatchProperty,
&eap_.subject_match);
// TODO(ers): in flimflam clearing Error has the side-effect of
// setting the service state to IDLE. Is this important? I could
// see an autotest depending on it.
store_.RegisterConstString(flimflam::kErrorProperty, &error_);
store_.RegisterConstBool(flimflam::kFavoriteProperty, &favorite_);
HelpRegisterDerivedUint16(shill::kHTTPProxyPortProperty,
&Service::GetHTTPProxyPort,
NULL);
HelpRegisterDerivedRpcIdentifier(shill::kIPConfigProperty,
&Service::GetIPConfigRpcIdentifier,
NULL);
HelpRegisterDerivedBool(flimflam::kIsActiveProperty,
&Service::IsActive,
NULL);
// flimflam::kModeProperty: Registered in WiFiService
// Although this is a read-only property, some callers want to blindly
// set this value to its current value.
HelpRegisterDerivedString(flimflam::kNameProperty,
&Service::GetNameProperty,
&Service::AssertTrivialSetNameProperty);
// flimflam::kPassphraseProperty: Registered in WiFiService
// flimflam::kPassphraseRequiredProperty: Registered in WiFiService
store_.RegisterInt32(flimflam::kPriorityProperty, &priority_);
HelpRegisterDerivedString(flimflam::kProfileProperty,
&Service::GetProfileRpcId,
&Service::SetProfileRpcId);
HelpRegisterDerivedString(flimflam::kProxyConfigProperty,
&Service::GetProxyConfig,
&Service::SetProxyConfig);
store_.RegisterBool(flimflam::kSaveCredentialsProperty, &save_credentials_);
HelpRegisterDerivedString(flimflam::kTypeProperty,
&Service::CalculateTechnology,
NULL);
// flimflam::kSecurityProperty: Registered in WiFiService
HelpRegisterDerivedString(flimflam::kStateProperty,
&Service::CalculateState,
NULL);
store_.RegisterConstUint8(flimflam::kSignalStrengthProperty, &strength_);
store_.RegisterString(flimflam::kUIDataProperty, &ui_data_);
HelpRegisterConstDerivedStrings(shill::kDiagnosticsDisconnectsProperty,
&Service::GetDisconnectsProperty);
HelpRegisterConstDerivedStrings(shill::kDiagnosticsMisconnectsProperty,
&Service::GetMisconnectsProperty);
metrics_->RegisterService(this);
static_ip_parameters_.PlumbPropertyStore(&store_);
IgnoreParameterForConfigure(flimflam::kTypeProperty);
IgnoreParameterForConfigure(flimflam::kProfileProperty);
LOG(INFO) << Technology::NameFromIdentifier(technology) << " service "
<< unique_name_ << " constructed.";
}
Service::~Service() {
LOG(INFO) << "Service " << unique_name_ << " destroyed.";
metrics_->DeregisterService(this);
}
void Service::AutoConnect() {
const char *reason = NULL;
if (IsAutoConnectable(&reason)) {
LOG(INFO) << "Auto-connecting to service " << unique_name_;
ThrottleFutureAutoConnects();
Error error;
Connect(&error);
} else {
if (reason == kAutoConnConnected || reason == kAutoConnBusy) {
SLOG(Service, 1)
<< "Suppressed autoconnect to service " << unique_name_ << " "
<< "(" << reason << ")";
} else {
LOG(INFO) << "Suppressed autoconnect to service " << unique_name_ << " "
<< "(" << reason << ")";
}
}
}
void Service::Connect(Error */*error*/) {
explicitly_disconnected_ = false;
// clear any failure state from a previous connect attempt
SetState(kStateIdle);
}
void Service::Disconnect(Error */*error*/) {
MemoryLog::GetInstance()->FlushToDisk();
}
void Service::DisconnectWithFailure(ConnectFailure failure, Error *error) {
Disconnect(error);
SetFailure(failure);
}
void Service::UserInitiatedDisconnect(Error *error) {
Disconnect(error);
explicitly_disconnected_ = true;
}
void Service::ActivateCellularModem(const string &/*carrier*/,
Error *error,
const ResultCallback &/*callback*/) {
Error::PopulateAndLog(error, Error::kNotSupported,
"Service doesn't support cellular modem activation.");
}
bool Service::IsActive(Error */*error*/) {
return state() != kStateUnknown &&
state() != kStateIdle &&
state() != kStateFailure;
}
void Service::SetState(ConnectState state) {
if (state == state_) {
return;
}
LOG(INFO) << "Service " << unique_name_ << ": state "
<< ConnectStateToString(state_) << " -> "
<< ConnectStateToString(state);
if (state == kStateFailure) {
NoteDisconnectEvent();
}
state_ = state;
if (state != kStateFailure) {
failure_ = kFailureUnknown;
}
if (state == kStateConnected) {
failed_time_ = 0;
has_ever_connected_ = true;
SaveToProfile();
// When we succeed in connecting, forget that connects failed in the past.
// Give services one chance at a fast autoconnect retry by resetting the
// cooldown to 0 to indicate that the last connect was successful.
auto_connect_cooldown_milliseconds_ = 0;
reenable_auto_connect_task_.Cancel();
}
UpdateErrorProperty();
manager_->UpdateService(this);
metrics_->NotifyServiceStateChanged(this, state);
adaptor_->EmitStringChanged(flimflam::kStateProperty, GetStateString());
}
void Service::ReEnableAutoConnectTask() {
// Kill the thing blocking AutoConnect().
reenable_auto_connect_task_.Cancel();
// Post to the manager, giving it an opportunity to AutoConnect again.
manager_->UpdateService(this);
}
void Service::ThrottleFutureAutoConnects() {
if (auto_connect_cooldown_milliseconds_ > 0) {
LOG(INFO) << "Throttling autoconnect to service " << unique_name_ << " for "
<< auto_connect_cooldown_milliseconds_ << " milliseconds.";
reenable_auto_connect_task_.Reset(Bind(&Service::ReEnableAutoConnectTask,
weak_ptr_factory_.GetWeakPtr()));
dispatcher_->PostDelayedTask(reenable_auto_connect_task_.callback(),
auto_connect_cooldown_milliseconds_);
}
auto_connect_cooldown_milliseconds_ =
std::min(kMaxAutoConnectCooldownTimeMilliseconds,
std::max(kMinAutoConnectCooldownTimeMilliseconds,
auto_connect_cooldown_milliseconds_ *
kAutoConnectCooldownBackoffFactor));
}
void Service::SetFailure(ConnectFailure failure) {
failure_ = failure;
failed_time_ = time(NULL);
UpdateErrorProperty();
SetState(kStateFailure);
}
void Service::SetFailureSilent(ConnectFailure failure) {
NoteDisconnectEvent();
// Note that order matters here, since SetState modifies |failure_| and
// |failed_time_|.
SetState(kStateIdle);
failure_ = failure;
UpdateErrorProperty();
failed_time_ = time(NULL);
}
string Service::GetRpcIdentifier() const {
return adaptor_->GetRpcIdentifier();
}
bool Service::IsLoadableFrom(StoreInterface *storage) const {
return storage->ContainsGroup(GetStorageIdentifier());
}
bool Service::Load(StoreInterface *storage) {
const string id = GetStorageIdentifier();
if (!storage->ContainsGroup(id)) {
LOG(WARNING) << "Service is not available in the persistent store: " << id;
return false;
}
storage->GetBool(id, kStorageAutoConnect, &auto_connect_);
storage->GetString(id, kStorageCheckPortal, &check_portal_);
storage->GetBool(id, kStorageFavorite, &favorite_);
storage->GetString(id, kStorageGUID, &guid_);
storage->GetBool(id, kStorageHasEverConnected, &has_ever_connected_);
storage->GetInt(id, kStoragePriority, &priority_);
storage->GetString(id, kStorageProxyConfig, &proxy_config_);
storage->GetBool(id, kStorageSaveCredentials, &save_credentials_);
storage->GetString(id, kStorageUIData, &ui_data_);
LoadEapCredentials(storage, id);
static_ip_parameters_.Load(storage, id);
// TODO(petkov): Load these:
// "Failure"
// "Modified"
// "LastAttempt"
explicitly_disconnected_ = false;
favorite_ = true;
return true;
}
bool Service::Unload() {
auto_connect_ = IsAutoConnectByDefault();
check_portal_ = kCheckPortalAuto;
explicitly_disconnected_ = false;
favorite_ = false;
guid_ = "";
has_ever_connected_ = false;
priority_ = kPriorityNone;
proxy_config_ = "";
save_credentials_ = true;
ui_data_ = "";
UnloadEapCredentials();
Error error; // Ignored.
Disconnect(&error);
return false;
}
bool Service::Save(StoreInterface *storage) {
const string id = GetStorageIdentifier();
storage->SetString(id, kStorageType, GetTechnologyString());
// TODO(petkov): We could choose to simplify the saving code by removing most
// conditionals thus saving even default values.
storage->SetBool(id, kStorageAutoConnect, auto_connect_);
if (check_portal_ == kCheckPortalAuto) {
storage->DeleteKey(id, kStorageCheckPortal);
} else {
storage->SetString(id, kStorageCheckPortal, check_portal_);
}
storage->SetBool(id, kStorageFavorite, favorite_);
SaveString(storage, id, kStorageGUID, guid_, false, true);
storage->SetBool(id, kStorageHasEverConnected, has_ever_connected_);
storage->SetString(id, kStorageName, friendly_name_);
if (priority_ != kPriorityNone) {
storage->SetInt(id, kStoragePriority, priority_);
} else {
storage->DeleteKey(id, kStoragePriority);
}
SaveString(storage, id, kStorageProxyConfig, proxy_config_, false, true);
if (save_credentials_) {
storage->DeleteKey(id, kStorageSaveCredentials);
} else {
storage->SetBool(id, kStorageSaveCredentials, false);
}
SaveString(storage, id, kStorageUIData, ui_data_, false, true);
SaveEapCredentials(storage, id);
static_ip_parameters_.Save(storage, id);
// TODO(petkov): Save these:
// "Failure"
// "Modified"
// "LastAttempt"
return true;
}
void Service::SaveToCurrentProfile() {
// Some unittests do not specify a manager.
if (manager()) {
manager()->SaveServiceToProfile(this);
}
}
void Service::Configure(const KeyValueStore &args, Error *error) {
map<string, bool>::const_iterator bool_it;
SLOG(Service, 5) << "Configuring bool properties:";
for (bool_it = args.bool_properties().begin();
bool_it != args.bool_properties().end();
++bool_it) {
if (ContainsKey(parameters_ignored_for_configure_, bool_it->first)) {
continue;
}
SLOG(Service, 5) << " " << bool_it->first;
Error set_error;
store_.SetBoolProperty(bool_it->first, bool_it->second, &set_error);
OnPropertyChanged(bool_it->first);
if (error->IsSuccess() && set_error.IsFailure()) {
error->CopyFrom(set_error);
}
}
SLOG(Service, 5) << "Configuring string properties:";
map<string, string>::const_iterator string_it;
for (string_it = args.string_properties().begin();
string_it != args.string_properties().end();
++string_it) {
if (ContainsKey(parameters_ignored_for_configure_, string_it->first)) {
continue;
}
SLOG(Service, 5) << " " << string_it->first;
Error set_error;
store_.SetStringProperty(string_it->first, string_it->second, &set_error);
OnPropertyChanged(string_it->first);
if (error->IsSuccess() && set_error.IsFailure()) {
error->CopyFrom(set_error);
}
}
SLOG(Service, 5) << "Configuring uint32 properties:";
map<string, uint32>::const_iterator int_it;
for (int_it = args.uint_properties().begin();
int_it != args.uint_properties().end();
++int_it) {
if (ContainsKey(parameters_ignored_for_configure_, int_it->first)) {
continue;
}
SLOG(Service, 5) << " " << int_it->first;
Error set_error;
store_.SetUint32Property(int_it->first, int_it->second, &set_error);
OnPropertyChanged(int_it->first);
if (error->IsSuccess() && set_error.IsFailure()) {
error->CopyFrom(set_error);
}
}
}
bool Service::IsRemembered() const {
return profile_ && !manager_->IsServiceEphemeral(this);
}
bool Service::IsDependentOn(const ServiceRefPtr &b) const {
if (!connection_ || !b) {
return false;
}
return connection_->GetLowerConnection() == b->connection();
}
void Service::MakeFavorite() {
if (favorite_) {
// We do not want to clobber the value of auto_connect_ (it may
// be user-set). So return early.
return;
}
auto_connect_ = true;
favorite_ = true;
}
void Service::SetConnection(const ConnectionRefPtr &connection) {
if (connection.get()) {
// TODO(pstew): Make this function testable by using a factory here.
// http://crosbug.com/34528
http_proxy_.reset(new HTTPProxy(connection));
http_proxy_->Start(dispatcher_, sockets_.get());
} else {
http_proxy_.reset();
static_ip_parameters_.ClearSavedParameters();
}
connection_ = connection;
Error error;
string ipconfig = GetIPConfigRpcIdentifier(&error);
if (error.IsSuccess()) {
adaptor_->EmitRpcIdentifierChanged(shill::kIPConfigProperty, ipconfig);
}
}
bool Service::Is8021xConnectable() const {
// We mirror all the flimflam checks (see service.c:is_connectable()).
// Identity is required.
if (eap_.identity.empty()) {
SLOG(Service, 2) << "Not connectable: Identity is empty.";
return false;
}
if (!eap_.client_cert.empty() || !eap_.cert_id.empty()) {
// If a client certificate is being used, we must have a private key.
if (eap_.private_key.empty() && eap_.key_id.empty()) {
SLOG(Service, 2)
<< "Not connectable. Client certificate but no private key.";
return false;
}
}
if (!eap_.cert_id.empty() || !eap_.key_id.empty() ||
!eap_.ca_cert_id.empty()) {
// If PKCS#11 data is needed, a PIN is required.
if (eap_.pin.empty()) {
SLOG(Service, 2) << "Not connectable. PKCS#11 data but no PIN.";
return false;
}
}
// For EAP-TLS, a client certificate is required.
if (eap_.eap.empty() || eap_.eap == "TLS") {
if ((!eap_.client_cert.empty() || !eap_.cert_id.empty()) &&
(!eap_.private_key.empty() || !eap_.key_id.empty())) {
SLOG(Service, 2) << "Connectable. EAP-TLS with a client cert and key.";
return true;
}
}
// For EAP types other than TLS (e.g. EAP-TTLS or EAP-PEAP, password is the
// minimum requirement), at least an identity + password is required.
if (eap_.eap.empty() || eap_.eap != "TLS") {
if (!eap_.password.empty()) {
SLOG(Service, 2) << "Connectable. !EAP-TLS and has a password.";
return true;
}
}
SLOG(Service, 2)
<< "Not connectable. No suitable EAP configuration was found.";
return false;
}
bool Service::AddEAPCertification(const string &name, size_t depth) {
if (depth >= kEAPMaxCertificationElements) {
LOG(WARNING) << "Ignoring certification " << name
<< " because depth " << depth
<< " exceeds our maximum of "
<< kEAPMaxCertificationElements;
return false;
}
if (depth >= eap_.remote_certification.size()) {
eap_.remote_certification.resize(depth + 1);
} else if (name == eap_.remote_certification[depth]) {
return true;
}
eap_.remote_certification[depth] = name;
LOG(INFO) << "Received certification for "
<< name
<< " at depth "
<< depth;
return true;
}
void Service::ClearEAPCertification() {
eap_.remote_certification.clear();
}
void Service::set_eap(const EapCredentials &eap) {
eap_ = eap;
// Note: Connectability can only be updated by a subclass of Service
// with knowledge of whether the service actually uses 802.1x credentials.
}
// static
const char *Service::ConnectFailureToString(const ConnectFailure &state) {
switch (state) {
case kFailureUnknown:
return "Unknown";
case kFailureAAA:
return flimflam::kErrorAaaFailed;
case kFailureActivation:
return flimflam::kErrorActivationFailed;
case kFailureBadPassphrase:
return flimflam::kErrorBadPassphrase;
case kFailureBadWEPKey:
return flimflam::kErrorBadWEPKey;
case kFailureConnect:
return flimflam::kErrorConnectFailed;
case kFailureDNSLookup:
return flimflam::kErrorDNSLookupFailed;
case kFailureDHCP:
return flimflam::kErrorDhcpFailed;
case kFailureHTTPGet:
return flimflam::kErrorHTTPGetFailed;
case kFailureNeedEVDO:
return flimflam::kErrorNeedEvdo;
case kFailureNeedHomeNetwork:
return flimflam::kErrorNeedHomeNetwork;
case kFailureOTASP:
return flimflam::kErrorOtaspFailed;
case kFailureOutOfRange:
return flimflam::kErrorOutOfRange;
case kFailurePinMissing:
return flimflam::kErrorPinMissing;
case kFailurePPPAuth:
return flimflam::kErrorPppAuthFailed;
case kFailureEAPAuthentication:
return shill::kErrorEapAuthenticationFailed;
case kFailureEAPLocalTLS:
return shill::kErrorEapLocalTlsFailed;
case kFailureEAPRemoteTLS:
return shill::kErrorEapRemoteTlsFailed;
case kFailureMax:
return "Max failure error code";
}
return "Invalid";
}
// static
const char *Service::ConnectStateToString(const ConnectState &state) {
switch (state) {
case kStateUnknown:
return "Unknown";
case kStateIdle:
return "Idle";
case kStateAssociating:
return "Associating";
case kStateConfiguring:
return "Configuring";
case kStateConnected:
return "Connected";
case kStateDisconnected:
return "Disconnected";
case kStatePortal:
return "Portal";
case kStateFailure:
return "Failure";
case kStateOnline:
return "Online";
}
return "Invalid";
}
string Service::GetTechnologyString() const {
return Technology::NameFromIdentifier(technology());
}
string Service::CalculateTechnology(Error */*error*/) {
return GetTechnologyString();
}
// static
void Service::ExpireEventsBefore(
int seconds_ago, const Timestamp &now, std::deque<Timestamp> *events) {
struct timeval period = (const struct timeval){ seconds_ago };
while (!events->empty()) {
if (events->size() < static_cast<size_t>(kMaxDisconnectEventHistory)) {
struct timeval elapsed = (const struct timeval){ 0 };
timersub(&now.monotonic, &events->front().monotonic, &elapsed);
if (timercmp(&elapsed, &period, <)) {
break;
}
}
events->pop_front();
}
}
void Service::NoteDisconnectEvent() {
SLOG(Service, 2) << __func__;
// Ignore the event if it's user-initiated explicit disconnect.
if (explicitly_disconnected_) {
SLOG(Service, 2) << "Explicit disconnect ignored.";
return;
}
// Ignore the event if manager is not running (e.g., service disconnects on
// shutdown).
if (!manager_->running()) {
SLOG(Service, 2) << "Disconnect while manager stopped ignored.";
return;
}
// Ignore the event if the power state is not on (e.g., when suspending).
PowerManager *power_manager = manager_->power_manager();
if (!power_manager ||
(power_manager->power_state() != PowerManager::kOn &&
power_manager->power_state() != PowerManager::kUnknown)) {
SLOG(Service, 2) << "Disconnect in transitional power state ignored.";
return;
}
int period = 0;
size_t threshold = 0;
deque<Timestamp> *events = NULL;
if (IsConnected()) {
LOG(INFO) << "Noting an unexpected connection drop.";
period = kDisconnectsMonitorSeconds;
threshold = kReportDisconnectsThreshold;
events = &disconnects_;
} else if (IsConnecting()) {
LOG(INFO) << "Noting an unexpected failure to connect.";
period = kMisconnectsMonitorSeconds;
threshold = kReportMisconnectsThreshold;
events = &misconnects_;
} else {
SLOG(Service, 2)
<< "Not connected or connecting, state transition ignored.";
return;
}
Timestamp now = time_->GetNow();
// Discard old events first.
ExpireEventsBefore(period, now, events);
events->push_back(now);
if (events->size() >= threshold) {
diagnostics_reporter_->OnConnectivityEvent();
}
}
bool Service::HasRecentConnectionIssues() {
Timestamp now = time_->GetNow();
ExpireEventsBefore(kDisconnectsMonitorSeconds, now, &disconnects_);
ExpireEventsBefore(kMisconnectsMonitorSeconds, now, &misconnects_);
return !disconnects_.empty() || !misconnects_.empty();
}
// static
bool Service::DecideBetween(int a, int b, bool *decision) {
if (a == b)
return false;
*decision = (a > b);
return true;
}
// static
bool Service::Compare(ServiceRefPtr a,
ServiceRefPtr b,
const vector<Technology::Identifier> &tech_order,
const char **reason) {
bool ret;
if (a->state() != b->state()) {
if (DecideBetween(a->IsConnected(), b->IsConnected(), &ret)) {
*reason = kServiceSortIsConnected;
return ret;
}
if (DecideBetween(!a->IsPortalled(), !b->IsPortalled(), &ret)) {
*reason = kServiceSortIsPortalled;
return ret;
}
if (DecideBetween(a->IsConnecting(), b->IsConnecting(), &ret)) {
*reason = kServiceSortIsConnecting;
return ret;
}
if (DecideBetween(!a->IsFailed(), !b->IsFailed(), &ret)) {
*reason = kServiceSortIsFailed;
return ret;
}
}
if (DecideBetween(a->connectable(), b->connectable(), &ret)) {
*reason = kServiceSortConnectable;
return ret;
}
if (DecideBetween(a->IsDependentOn(b), b->IsDependentOn(a), &ret)) {
*reason = kServiceSortDependency;
return ret;
}
// Ignore the auto-connect property if both services are connected
// already. This allows connected non-autoconnectable VPN services to be
// sorted higher than other connected services based on technology order.
if (!a->IsConnected() &&
DecideBetween(a->auto_connect(), b->auto_connect(), &ret)) {
*reason = kServiceSortAutoConnect;
return ret;
}
if (DecideBetween(a->favorite(), b->favorite(), &ret)) {
*reason = kServiceSortFavorite;
return ret;
}
if (DecideBetween(a->priority(), b->priority(), &ret)) {
*reason = kServiceSortPriority;
return ret;
}
// TODO(pstew): Below this point we are making value judgements on
// services that are not related to anything intrinsic or
// user-specified. These heuristics should be richer (contain
// historical information, for example) and be subject to user
// customization.
for (vector<Technology::Identifier>::const_iterator it = tech_order.begin();
it != tech_order.end();
++it) {
if (DecideBetween(a->technology() == *it, b->technology() == *it, &ret)) {
*reason = kServiceSortTechnology;
return ret;
}
}
if (DecideBetween(a->security_level(), b->security_level(), &ret) ||
DecideBetween(a->strength(), b->strength(), &ret)) {
*reason = kServiceSortSecurityEtc;
return ret;
}
*reason = kServiceSortUniqueName;
return a->unique_name() < b->unique_name();
}
const ProfileRefPtr &Service::profile() const { return profile_; }
void Service::set_profile(const ProfileRefPtr &p) { profile_ = p; }
void Service::SetProfile(const ProfileRefPtr &p) {
SLOG(Service, 2) << "SetProfile from "
<< (profile_ ? profile_->GetFriendlyName() : "")
<< " to " << (p ? p->GetFriendlyName() : "");
profile_ = p;
Error error;
string profile_rpc_id = GetProfileRpcId(&error);
if (!error.IsSuccess()) {
return;
}
adaptor_->EmitStringChanged(flimflam::kProfileProperty, profile_rpc_id);
}
void Service::OnPropertyChanged(const string &property) {
if (Is8021x() &&
(property == flimflam::kEAPCertIDProperty ||
property == flimflam::kEAPClientCertProperty ||
property == flimflam::kEAPKeyIDProperty ||
property == flimflam::kEAPPINProperty ||
property == flimflam::kEapCaCertIDProperty ||
property == flimflam::kEapIdentityProperty ||
property == flimflam::kEapKeyMgmtProperty ||
property == flimflam::kEapPasswordProperty ||
property == flimflam::kEapPrivateKeyProperty)) {
// This notifies subclassess that EAP parameters have been changed.
set_eap(eap_);
}
SaveToProfile();
if ((property == flimflam::kCheckPortalProperty ||
property == flimflam::kProxyConfigProperty) &&
(state_ == kStateConnected ||
state_ == kStatePortal ||
state_ == kStateOnline)) {
manager_->RecheckPortalOnService(this);
}
}
void Service::OnAfterResume() {
// Forget old autoconnect failures across suspend/resume.
auto_connect_cooldown_milliseconds_ = 0;
reenable_auto_connect_task_.Cancel();
// Forget if the user disconnected us, we might be able to connect now.
explicitly_disconnected_ = false;
}
string Service::GetIPConfigRpcIdentifier(Error *error) {
if (!connection_) {
error->Populate(Error::kNotFound);
return "/";
}
string id = connection_->ipconfig_rpc_identifier();
if (id.empty()) {
// Do not return an empty IPConfig.
error->Populate(Error::kNotFound);
return "/";
}
return id;
}
void Service::set_connectable(bool connectable) {
connectable_ = connectable;
adaptor_->EmitBoolChanged(flimflam::kConnectableProperty, connectable_);
}
void Service::SetConnectable(bool connectable) {
if (connectable_ == connectable) {
return;
}
connectable_ = connectable;
adaptor_->EmitBoolChanged(flimflam::kConnectableProperty, connectable_);
if (manager_->HasService(this)) {
manager_->UpdateService(this);
}
}
string Service::GetStateString() const {
switch (state_) {
case kStateIdle:
return flimflam::kStateIdle;
case kStateAssociating:
return flimflam::kStateAssociation;
case kStateConfiguring:
return flimflam::kStateConfiguration;
case kStateConnected:
return flimflam::kStateReady;
case kStateDisconnected:
return flimflam::kStateDisconnect;
case kStateFailure:
return flimflam::kStateFailure;
case kStatePortal:
return flimflam::kStatePortal;
case kStateOnline:
return flimflam::kStateOnline;
case kStateUnknown:
default:
return "";
}
}
string Service::CalculateState(Error */*error*/) {
return GetStateString();
}
bool Service::IsAutoConnectable(const char **reason) const {
if (!connectable()) {
*reason = kAutoConnNotConnectable;
return false;
}
if (IsConnected()) {
*reason = kAutoConnConnected;
return false;
}
if (IsConnecting()) {
*reason = kAutoConnConnecting;
return false;
}
if (explicitly_disconnected_) {
*reason = kAutoConnExplicitDisconnect;
return false;
}
if (!reenable_auto_connect_task_.IsCancelled()) {
*reason = kAutoConnThrottled;
return false;
}
return true;
}
bool Service::IsPortalDetectionDisabled() const {
return check_portal_ == kCheckPortalFalse;
}
bool Service::IsPortalDetectionAuto() const {
return check_portal_ == kCheckPortalAuto;
}
void Service::HelpRegisterDerivedBool(
const string &name,
bool(Service::*get)(Error *),
void(Service::*set)(const bool&, Error *)) {
store_.RegisterDerivedBool(
name,
BoolAccessor(new CustomAccessor<Service, bool>(this, get, set)));
}
void Service::HelpRegisterDerivedString(
const string &name,
string(Service::*get)(Error *),
void(Service::*set)(const string&, Error *)) {
store_.RegisterDerivedString(
name,
StringAccessor(new CustomAccessor<Service, string>(this, get, set)));
}
void Service::HelpRegisterDerivedRpcIdentifier(
const string &name,
RpcIdentifier(Service::*get)(Error *),
void(Service::*set)(const RpcIdentifier&, Error *)) {
store_.RegisterDerivedRpcIdentifier(
name,
RpcIdentifierAccessor(new CustomAccessor<Service, RpcIdentifier>(
this, get, set)));
}
void Service::HelpRegisterDerivedUint16(
const string &name,
uint16(Service::*get)(Error *),
void(Service::*set)(const uint16&, Error *)) {
store_.RegisterDerivedUint16(
name,
Uint16Accessor(new CustomAccessor<Service, uint16>(this, get, set)));
}
void Service::HelpRegisterConstDerivedStrings(
const string &name, Strings(Service::*get)(Error *error)) {
store_.RegisterDerivedStrings(
name,
StringsAccessor(new CustomAccessor<Service, Strings>(this, get, NULL)));
}
void Service::HelpRegisterWriteOnlyDerivedString(
const string &name,
void(Service::*set)(const string &, Error *),
void(Service::*clear)(Error *),
const string *default_value) {
store_.RegisterDerivedString(
name,
StringAccessor(
new CustomWriteOnlyAccessor<Service, string>(
this, set, clear, default_value)));
}
void Service::SaveString(StoreInterface *storage,
const string &id,
const string &key,
const string &value,
bool crypted,
bool save) {
if (value.empty() || !save) {
storage->DeleteKey(id, key);
return;
}
if (crypted) {
storage->SetCryptedString(id, key, value);
return;
}
storage->SetString(id, key, value);
}
void Service::LoadEapCredentials(StoreInterface *storage, const string &id) {
EapCredentials eap;
storage->GetCryptedString(id, kStorageEapIdentity, &eap.identity);
storage->GetString(id, kStorageEapEap, &eap.eap);
storage->GetString(id, kStorageEapInnerEap, &eap.inner_eap);
storage->GetCryptedString(id,
kStorageEapAnonymousIdentity,
&eap.anonymous_identity);
storage->GetString(id, kStorageEapClientCert, &eap.client_cert);
storage->GetString(id, kStorageEapCertID, &eap.cert_id);
storage->GetString(id, kStorageEapPrivateKey, &eap.private_key);
storage->GetCryptedString(id,
kStorageEapPrivateKeyPassword,
&eap.private_key_password);
storage->GetString(id, kStorageEapKeyID, &eap.key_id);
storage->GetString(id, kStorageEapCACert, &eap.ca_cert);
storage->GetString(id, kStorageEapCACertID, &eap.ca_cert_id);
storage->GetString(id, kStorageEapCACertNSS, &eap.ca_cert_nss);
storage->GetBool(id, kStorageEapUseSystemCAs, &eap.use_system_cas);
storage->GetString(id, kStorageEapPIN, &eap.pin);
storage->GetCryptedString(id, kStorageEapPassword, &eap.password);
storage->GetString(id, kStorageEapKeyManagement, &eap.key_management);
set_eap(eap);
}
void Service::SaveEapCredentials(StoreInterface *storage, const string &id) {
bool save = save_credentials_;
SaveString(storage, id, kStorageEapIdentity, eap_.identity, true, save);
SaveString(storage, id, kStorageEapEap, eap_.eap, false, true);
SaveString(storage, id, kStorageEapInnerEap, eap_.inner_eap, false, true);
SaveString(storage,
id,
kStorageEapAnonymousIdentity,
eap_.anonymous_identity,
true,
save);
SaveString(storage, id, kStorageEapClientCert, eap_.client_cert, false, save);
SaveString(storage, id, kStorageEapCertID, eap_.cert_id, false, save);
SaveString(storage, id, kStorageEapPrivateKey, eap_.private_key, false, save);
SaveString(storage,
id,
kStorageEapPrivateKeyPassword,
eap_.private_key_password,
true,
save);
SaveString(storage, id, kStorageEapKeyID, eap_.key_id, false, save);
SaveString(storage, id, kStorageEapCACert, eap_.ca_cert, false, true);
SaveString(storage, id, kStorageEapCACertID, eap_.ca_cert_id, false, true);
SaveString(storage, id, kStorageEapCACertNSS, eap_.ca_cert_nss, false, true);
storage->SetBool(id, kStorageEapUseSystemCAs, eap_.use_system_cas);
SaveString(storage, id, kStorageEapPIN, eap_.pin, false, save);
SaveString(storage, id, kStorageEapPassword, eap_.password, true, save);
SaveString(storage,
id,
kStorageEapKeyManagement,
eap_.key_management,
false,
true);
}
void Service::UnloadEapCredentials() {
eap_.identity = "";
eap_.eap = "";
eap_.inner_eap = "";
eap_.anonymous_identity = "";
eap_.client_cert = "";
eap_.cert_id = "";
eap_.private_key = "";
eap_.private_key_password = "";
eap_.key_id = "";
eap_.ca_cert = "";
eap_.ca_cert_id = "";
eap_.use_system_cas = true;
eap_.pin = "";
eap_.password = "";
}
void Service::IgnoreParameterForConfigure(const string &parameter) {
parameters_ignored_for_configure_.insert(parameter);
}
const string &Service::GetEAPKeyManagement() const {
return eap_.key_management;
}
void Service::SetEAPKeyManagement(const string &key_management) {
eap_.key_management = key_management;
}
bool Service::GetAutoConnect(Error */*error*/) {
return auto_connect();
}
void Service::SetAutoConnect(const bool &connect, Error *error) {
set_auto_connect(connect);
}
string Service::GetCheckPortal(Error *error) {
return check_portal_;
}
void Service::SetCheckPortal(const string &check_portal, Error *error) {
if (check_portal == check_portal_) {
return;
}
if (check_portal != kCheckPortalFalse &&
check_portal != kCheckPortalTrue &&
check_portal != kCheckPortalAuto) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
base::StringPrintf(
"Invalid Service CheckPortal property value: %s",
check_portal.c_str()));
return;
}
check_portal_ = check_portal;
}
void Service::SetEAPPassword(const string &password, Error */*error*/) {
eap_.password = password;
}
void Service::SetEAPPrivateKeyPassword(const string &password,
Error */*error*/) {
eap_.private_key_password = password;
}
string Service::GetNameProperty(Error *error) {
return friendly_name_;
}
void Service::AssertTrivialSetNameProperty(const string &name, Error *error) {
if (name != friendly_name_) {
Error::PopulateAndLog(error, Error::kInvalidArguments,
base::StringPrintf(
"Service %s Name property cannot be modified.",
unique_name_.c_str()));
}
}
string Service::GetProfileRpcId(Error *error) {
if (!profile_) {
// This happens in some unit tests where profile_ is not set.
error->Populate(Error::kNotFound);
return "";
}
return profile_->GetRpcIdentifier();
}
void Service::SetProfileRpcId(const string &profile, Error *error) {
manager_->SetProfileForService(this, profile, error);
}
uint16 Service::GetHTTPProxyPort(Error */*error*/) {
if (http_proxy_.get()) {
return static_cast<uint16>(http_proxy_->proxy_port());
}
return 0;
}
string Service::GetProxyConfig(Error *error) {
return proxy_config_;
}
void Service::SetProxyConfig(const string &proxy_config, Error *error) {
proxy_config_ = proxy_config;
adaptor_->EmitStringChanged(flimflam::kProxyConfigProperty, proxy_config_);
}
// static
Strings Service::ExtractWallClockToStrings(
const deque<Timestamp> &timestamps) {
Strings strings;
for (deque<Timestamp>::const_iterator it = timestamps.begin();
it != timestamps.end(); ++it) {
strings.push_back(it->wall_clock);
}
return strings;
}
Strings Service::GetDisconnectsProperty(Error */*error*/) {
return ExtractWallClockToStrings(disconnects_);
}
Strings Service::GetMisconnectsProperty(Error */*error*/) {
return ExtractWallClockToStrings(misconnects_);
}
void Service::SaveToProfile() {
if (profile_.get() && profile_->GetConstStorage()) {
profile_->UpdateService(this);
}
}
void Service::SetStrength(uint8 strength) {
if (strength == strength_) {
return;
}
strength_ = strength;
adaptor_->EmitUint8Changed(flimflam::kSignalStrengthProperty, strength);
}
void Service::UpdateErrorProperty() {
const string error(ConnectFailureToString(failure_));
if (error == error_) {
return;
}
error_ = error;
adaptor_->EmitStringChanged(flimflam::kErrorProperty, error);
}
} // namespace shill