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chromium / chromium / src / b4351642b76a47020154a3fd1f43203f5ca44a47 / . / components / autofill / core / browser / personal_data_manager.cc
blob: b006285e9a5858063edcc569c754da6d6698c9cd [file] [log] [blame]
// Copyright 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 "components/autofill/core/browser/personal_data_manager.h"
#include <stddef.h>
#include <algorithm>
#include <list>
#include <map>
#include <memory>
#include <string>
#include <utility>
#include "base/bind.h"
#include "base/callback.h"
#include "base/feature_list.h"
#include "base/i18n/case_conversion.h"
#include "base/i18n/timezone.h"
#include "base/metrics/histogram_macros.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "build/build_config.h"
#include "components/autofill/core/browser/address_i18n.h"
#include "components/autofill/core/browser/autofill-inl.h"
#include "components/autofill/core/browser/autofill_country.h"
#include "components/autofill/core/browser/autofill_download_manager.h"
#include "components/autofill/core/browser/autofill_experiments.h"
#include "components/autofill/core/browser/autofill_field.h"
#include "components/autofill/core/browser/autofill_metrics.h"
#include "components/autofill/core/browser/autofill_profile_comparator.h"
#include "components/autofill/core/browser/country_data.h"
#include "components/autofill/core/browser/country_names.h"
#include "components/autofill/core/browser/form_structure.h"
#include "components/autofill/core/browser/personal_data_manager_observer.h"
#include "components/autofill/core/browser/phone_number.h"
#include "components/autofill/core/browser/phone_number_i18n.h"
#include "components/autofill/core/browser/suggestion_selection.h"
#include "components/autofill/core/browser/validation.h"
#include "components/autofill/core/common/autofill_clock.h"
#include "components/autofill/core/common/autofill_constants.h"
#include "components/autofill/core/common/autofill_features.h"
#include "components/autofill/core/common/autofill_prefs.h"
#include "components/autofill/core/common/autofill_switches.h"
#include "components/autofill/core/common/autofill_util.h"
#include "components/history/core/browser/history_service.h"
#include "components/prefs/pref_service.h"
#include "components/sync/driver/sync_auth_util.h"
#include "components/sync/driver/sync_service.h"
#include "components/sync/driver/sync_service_utils.h"
#include "components/version_info/version_info.h"
#include "services/identity/public/cpp/identity_manager.h"
#include "third_party/libaddressinput/src/cpp/include/libaddressinput/address_data.h"
#include "third_party/libaddressinput/src/cpp/include/libaddressinput/address_formatter.h"
#include "third_party/libaddressinput/src/cpp/include/libaddressinput/source.h"
#include "third_party/libaddressinput/src/cpp/include/libaddressinput/storage.h"
namespace autofill {
namespace {
using ::i18n::addressinput::AddressField;
using ::i18n::addressinput::GetStreetAddressLinesAsSingleLine;
using ::i18n::addressinput::STREET_ADDRESS;
// The length of a local profile GUID.
const int LOCAL_GUID_LENGTH = 36;
template <typename T>
class FormGroupMatchesByGUIDFunctor {
public:
explicit FormGroupMatchesByGUIDFunctor(const std::string& guid)
: guid_(guid) {}
bool operator()(const T& form_group) { return form_group.guid() == guid_; }
bool operator()(const T* form_group) { return form_group->guid() == guid_; }
bool operator()(const std::unique_ptr<T>& form_group) {
return form_group->guid() == guid_;
}
private:
const std::string guid_;
};
template <typename T, typename C>
typename C::const_iterator FindElementByGUID(const C& container,
const std::string& guid) {
return std::find_if(container.begin(), container.end(),
FormGroupMatchesByGUIDFunctor<T>(guid));
}
template <typename T, typename C>
bool FindByGUID(const C& container, const std::string& guid) {
return FindElementByGUID<T>(container, guid) != container.end();
}
template <typename T>
class IsEmptyFunctor {
public:
explicit IsEmptyFunctor(const std::string& app_locale)
: app_locale_(app_locale) {}
bool operator()(const T& form_group) {
return form_group.IsEmpty(app_locale_);
}
private:
const std::string app_locale_;
};
bool IsSyncEnabledFor(const syncer::SyncService* sync_service,
syncer::ModelType model_type) {
return sync_service != nullptr && sync_service->CanSyncFeatureStart() &&
sync_service->GetPreferredDataTypes().Has(model_type);
}
// Receives the loaded profiles from the web data service and stores them in
// |*dest|. The pending handle is the address of the pending handle
// corresponding to this request type. This function is used to save both
// server and local profiles and credit cards.
template <typename ValueType>
void ReceiveLoadedDbValues(WebDataServiceBase::Handle h,
WDTypedResult* result,
WebDataServiceBase::Handle* pending_handle,
std::vector<std::unique_ptr<ValueType>>* dest) {
DCHECK_EQ(*pending_handle, h);
*pending_handle = 0;
*dest = std::move(
static_cast<WDResult<std::vector<std::unique_ptr<ValueType>>>*>(result)
->GetValue());
}
// A helper function for finding the maximum value in a string->int map.
static bool CompareVotes(const std::pair<std::string, int>& a,
const std::pair<std::string, int>& b) {
return a.second < b.second;
}
} // namespace
// Helper class to abstract the switching between account and profile storage
// for server cards away from the rest of PersonalDataManager.
class PersonalDatabaseHelper
: public AutofillWebDataServiceObserverOnUISequence {
public:
explicit PersonalDatabaseHelper(PersonalDataManager* personal_data_manager)
: personal_data_manager_(personal_data_manager) {}
void Init(scoped_refptr<AutofillWebDataService> profile_database,
scoped_refptr<AutofillWebDataService> account_database) {
profile_database_ = profile_database;
account_database_ = account_database;
if (!profile_database_) {
// In some tests, there are no dbs.
return;
}
// Start observing the profile database. Don't observe the account database
// until we know that we should use it.
profile_database_->AddObserver(personal_data_manager_);
// If we don't have an account_database , we always use the profile database
// for server data.
if (!account_database_) {
server_database_ = profile_database_;
} else {
// Wait for the call to SetUseAccountStorageForServerData to decide
// which database to use for server data.
server_database_ = nullptr;
}
}
~PersonalDatabaseHelper() override {
if (profile_database_) {
profile_database_->RemoveObserver(personal_data_manager_);
}
// If we have a different server database, also remove its observer.
if (server_database_ && server_database_ != profile_database_) {
server_database_->RemoveObserver(personal_data_manager_);
}
}
// Returns the database that should be used for storing local data.
scoped_refptr<AutofillWebDataService> GetLocalDatabase() {
return profile_database_;
}
// Returns the database that should be used for storing server data.
scoped_refptr<AutofillWebDataService> GetServerDatabase() {
return server_database_;
}
// Whether we're currently using the ephemeral account storage for saving
// server data.
bool IsUsingAccountStorageForServerData() {
return server_database_ != profile_database_;
}
// Set whether this should use the passed in account storage for server
// addresses. If false, this will use the profile_storage.
// It's an error to call this if no account storage was passed in at
// construction time.
void SetUseAccountStorageForServerData(
bool use_account_storage_for_server_cards) {
if (!profile_database_) {
// In some tests, there are no dbs.
return;
}
scoped_refptr<AutofillWebDataService> new_server_database =
use_account_storage_for_server_cards ? account_database_
: profile_database_;
DCHECK(new_server_database != nullptr)
<< "SetUseAccountStorageForServerData("
<< use_account_storage_for_server_cards << "): storage not available.";
if (new_server_database == server_database_) {
// Nothing to do :)
return;
}
if (server_database_ != nullptr) {
if (server_database_ != profile_database_) {
// Remove the previous observer if we had any.
server_database_->RemoveObserver(personal_data_manager_);
}
personal_data_manager_->CancelPendingServerQueries();
}
server_database_ = new_server_database;
// We don't need to add an observer if server_database_ is equal to
// profile_database_, because we're already observing that.
if (server_database_ != profile_database_) {
server_database_->AddObserver(personal_data_manager_);
}
// Notify the manager that the database changed.
personal_data_manager_->Refresh();
}
private:
scoped_refptr<AutofillWebDataService> profile_database_;
scoped_refptr<AutofillWebDataService> account_database_;
// The database that should be used for server data. This will always be equal
// to either profile_database_, or account_database_.
scoped_refptr<AutofillWebDataService> server_database_;
PersonalDataManager* personal_data_manager_;
DISALLOW_COPY_AND_ASSIGN(PersonalDatabaseHelper);
};
PersonalDataManager::PersonalDataManager(const std::string& app_locale)
: app_locale_(app_locale),
test_data_creator_(kDisusedDataModelDeletionTimeDelta, app_locale_) {
database_helper_ = std::make_unique<PersonalDatabaseHelper>(this);
}
void PersonalDataManager::Init(
scoped_refptr<AutofillWebDataService> profile_database,
scoped_refptr<AutofillWebDataService> account_database,
PrefService* pref_service,
identity::IdentityManager* identity_manager,
AutofillProfileValidator* client_profile_validator,
history::HistoryService* history_service,
GaiaCookieManagerService* cookie_manager_service,
bool is_off_the_record) {
CountryNames::SetLocaleString(app_locale_);
database_helper_->Init(profile_database, account_database);
SetPrefService(pref_service);
// Listen for the preference changes.
pref_registrar_.Init(pref_service);
pref_registrar_.Add(
prefs::kAutofillProfileValidity,
base::BindRepeating(&PersonalDataManager::ResetProfileValidity,
base::Unretained(this)));
// Listen for URL deletions from browsing history.
history_service_ = history_service;
if (history_service_)
history_service_->AddObserver(this);
// Listen for cookie deletion by the user.
cookie_manager_service_ = cookie_manager_service;
if (cookie_manager_service_)
cookie_manager_service_->AddObserver(this);
identity_manager_ = identity_manager;
is_off_the_record_ = is_off_the_record;
if (!is_off_the_record_)
AutofillMetrics::LogIsAutofillEnabledAtStartup(IsAutofillEnabled());
client_profile_validator_ = client_profile_validator;
// WebDataService may not be available in tests.
if (!database_helper_->GetLocalDatabase()) {
return;
}
database_helper_->GetLocalDatabase()->SetAutofillProfileChangedCallback(
base::BindRepeating(&PersonalDataManager::OnAutofillProfileChanged,
weak_factory_.GetWeakPtr()));
LoadProfiles();
LoadCreditCards();
LoadPaymentsCustomerData();
// Check if profile cleanup has already been performed this major version.
is_autofill_profile_cleanup_pending_ =
pref_service_->GetInteger(prefs::kAutofillLastVersionDeduped) >=
CHROME_VERSION_MAJOR;
DVLOG(1) << "Autofill profile cleanup "
<< (is_autofill_profile_cleanup_pending_ ? "needs to be"
: "has already been")
<< " performed for this version";
}
PersonalDataManager::~PersonalDataManager() {
CancelPendingLocalQuery(&pending_profiles_query_);
CancelPendingLocalQuery(&pending_creditcards_query_);
CancelPendingServerQuery(&pending_server_profiles_query_);
CancelPendingServerQuery(&pending_server_creditcards_query_);
CancelPendingServerQuery(&pending_customer_data_query_);
}
void PersonalDataManager::Shutdown() {
if (sync_service_)
sync_service_->RemoveObserver(this);
sync_service_ = nullptr;
if (history_service_)
history_service_->RemoveObserver(this);
history_service_ = nullptr;
if (cookie_manager_service_)
cookie_manager_service_->RemoveObserver(this);
cookie_manager_service_ = nullptr;
}
void PersonalDataManager::OnSyncServiceInitialized(
syncer::SyncService* sync_service) {
if (sync_service_ != sync_service) {
// Before the sync service pointer gets changed, remove the observer.
if (sync_service_)
sync_service_->RemoveObserver(this);
sync_service_ = sync_service;
UMA_HISTOGRAM_BOOLEAN(
"Autofill.ResetFullServerCards.SyncServiceNullOnInitialized",
!sync_service_);
if (!sync_service_) {
ResetFullServerCards();
return;
}
sync_service_->AddObserver(this);
// Re-mask all server cards if the upload state is not active.
bool is_upload_not_active =
syncer::GetUploadToGoogleState(
sync_service_, syncer::ModelType::AUTOFILL_WALLET_DATA) ==
syncer::UploadState::NOT_ACTIVE;
UMA_HISTOGRAM_BOOLEAN(
"Autofill.ResetFullServerCards.SyncServiceNotActiveOnInitialized",
is_upload_not_active);
if (is_upload_not_active) {
ResetFullServerCards();
}
if (base::FeatureList::IsEnabled(
autofill::features::kAutofillEnableAccountWalletStorage)) {
// Use the ephemeral account storage when the user didn't enable the sync
// feature explicitly.
database_helper_->SetUseAccountStorageForServerData(
!sync_service->IsSyncFeatureEnabled());
}
}
}
void PersonalDataManager::OnURLsDeleted(
history::HistoryService* /* history_service */,
const history::DeletionInfo& deletion_info) {
if (!deletion_info.is_from_expiration() && deletion_info.IsAllHistory()) {
AutofillDownloadManager::ClearUploadHistory(pref_service_);
}
}
void PersonalDataManager::OnWebDataServiceRequestDone(
WebDataServiceBase::Handle h,
std::unique_ptr<WDTypedResult> result) {
DCHECK(pending_profiles_query_ || pending_server_profiles_query_ ||
pending_creditcards_query_ || pending_server_creditcards_query_ ||
pending_customer_data_query_);
if (!result) {
// Error from the web database.
if (h == pending_creditcards_query_)
pending_creditcards_query_ = 0;
else if (h == pending_profiles_query_)
pending_profiles_query_ = 0;
else if (h == pending_server_creditcards_query_)
pending_server_creditcards_query_ = 0;
else if (h == pending_server_profiles_query_)
pending_server_profiles_query_ = 0;
else if (h == pending_customer_data_query_)
pending_customer_data_query_ = 0;
} else {
switch (result->GetType()) {
case AUTOFILL_PROFILES_RESULT:
if (h == pending_profiles_query_) {
ReceiveLoadedDbValues(h, result.get(), &pending_profiles_query_,
&web_profiles_);
} else {
DCHECK_EQ(h, pending_server_profiles_query_)
<< "received profiles from invalid request.";
ReceiveLoadedDbValues(h, result.get(),
&pending_server_profiles_query_,
&server_profiles_);
}
break;
case AUTOFILL_CREDITCARDS_RESULT:
if (h == pending_creditcards_query_) {
ReceiveLoadedDbValues(h, result.get(), &pending_creditcards_query_,
&local_credit_cards_);
} else {
DCHECK_EQ(h, pending_server_creditcards_query_)
<< "received creditcards from invalid request.";
ReceiveLoadedDbValues(h, result.get(),
&pending_server_creditcards_query_,
&server_credit_cards_);
// If the user has a saved unmasked server card and the experiment is
// disabled, force mask all cards back to the unsaved state.
if (!OfferStoreUnmaskedCards(is_off_the_record_))
ResetFullServerCards();
}
break;
case AUTOFILL_CUSTOMERDATA_RESULT:
DCHECK_EQ(h, pending_customer_data_query_)
<< "received customer data from invalid request.";
pending_customer_data_query_ = 0;
payments_customer_data_ =
static_cast<WDResult<std::unique_ptr<PaymentsCustomerData>>*>(
result.get())
->GetValue();
break;
default:
NOTREACHED();
}
}
// If all requests have responded, then all personal data is loaded.
// We need to check if the server database is set here, because we won't have
// the server data yet if we don't have the database.
if (pending_profiles_query_ == 0 && pending_creditcards_query_ == 0 &&
pending_server_profiles_query_ == 0 &&
pending_server_creditcards_query_ == 0 &&
pending_customer_data_query_ == 0 &&
database_helper_->GetServerDatabase()) {
// On initial data load, is_data_loaded_ will be false here.
if (!is_data_loaded_) {
// If sync is enabled for addresses, defer running cleanups until address
// sync has started; otherwise, do it now.
if (!IsSyncEnabledFor(sync_service_, syncer::AUTOFILL_PROFILE))
ApplyAddressFixesAndCleanups();
// If sync is enabled for credit cards, defer running cleanups until card
// sync has started; otherwise, do it now.
if (!IsSyncEnabledFor(sync_service_, syncer::AUTOFILL_WALLET_DATA))
ApplyCardFixesAndCleanups();
// Log address and credit card startup metrics.
LogStoredProfileMetrics();
LogStoredCreditCardMetrics();
}
is_data_loaded_ = true;
NotifyPersonalDataChanged();
}
}
void PersonalDataManager::AutofillMultipleChanged() {
has_synced_new_data_ = true;
Refresh();
}
void PersonalDataManager::SyncStarted(syncer::ModelType model_type) {
// Run deferred autofill address profile startup code.
// See: OnSyncServiceInitialized
if (model_type == syncer::AUTOFILL_PROFILE)
ApplyAddressFixesAndCleanups();
// Run deferred credit card startup code.
// See: OnSyncServiceInitialized
if (model_type == syncer::AUTOFILL_WALLET_DATA)
ApplyCardFixesAndCleanups();
}
void PersonalDataManager::OnStateChanged(syncer::SyncService* sync_service) {
// TODO(mastiz,jkrcal): Once AUTOFILL_WALLET is migrated to USS, it shouldn't
// be necessary anymore to implement SyncServiceObserver; instead the
// notification should flow through the payments sync bridge.
DCHECK_EQ(sync_service_, sync_service);
syncer::UploadState upload_state = syncer::GetUploadToGoogleState(
sync_service_, syncer::ModelType::AUTOFILL_WALLET_DATA);
UMA_HISTOGRAM_ENUMERATION(
"Autofill.ResetFullServerCards.SyncServiceStatusOnStateChanged",
upload_state);
if (upload_state == syncer::UploadState::NOT_ACTIVE) {
ResetFullServerCards();
}
if (base::FeatureList::IsEnabled(
autofill::features::kAutofillEnableAccountWalletStorage)) {
// Use the ephemeral account storage when the user didn't enable the sync
// feature explicitly.
database_helper_->SetUseAccountStorageForServerData(
!sync_service->IsSyncFeatureEnabled());
}
}
void PersonalDataManager::OnSyncShutdown(syncer::SyncService* sync_service) {
DCHECK_EQ(sync_service_, sync_service);
sync_service_->RemoveObserver(this);
sync_service_ = nullptr;
}
AccountInfo PersonalDataManager::GetAccountInfoForPaymentsServer() const {
// If butter is enabled or the feature to get the Payment Identity from Sync
// is enabled, return the account of the active signed-in user irrespective of
// whether they enabled sync or not.
// Otherwise, return the latest cached AccountInfo of the user's primary
// account, which is empty if the user has disabled sync.
// In both cases, the AccountInfo will be empty if the user is not signed in.
return ShouldUseActiveSignedInAccount() && sync_service_
? sync_service_->GetAuthenticatedAccountInfo()
: identity_manager_->GetPrimaryAccountInfo();
}
// TODO(crbug.com/903914): Clean up this function so that it's more clear what
// it's checking. It should not check the database helper.
bool PersonalDataManager::IsSyncFeatureEnabled() const {
if (!sync_service_)
return false;
return !sync_service_->GetAuthenticatedAccountInfo().IsEmpty() &&
!database_helper_->IsUsingAccountStorageForServerData();
}
void PersonalDataManager::OnGaiaCookieDeletedByUserAction() {
// Clear all the Sync Transport feature opt-ins.
::autofill::prefs::ClearSyncTransportOptIns(pref_service_);
}
// TODO(crbug.com/903896): Generalize this to all the possible states relavant
// to Autofill.
AutofillSyncSigninState PersonalDataManager::GetSyncSigninState() const {
// Check if the user is signed out.
if (!sync_service_ || !identity_manager_ ||
syncer::DetermineAccountToUse(identity_manager_,
/*allow_secondary_accounts=*/true)
.account_info.IsEmpty()) {
return AutofillSyncSigninState::kSignedOut;
}
// Check if the user has turned on sync.
if (sync_service_->IsSyncFeatureEnabled()) {
return AutofillSyncSigninState::kSignedInAndSyncFeature;
}
// Check if the feature is enabled and if Wallet data types are supported.
if (base::FeatureList::IsEnabled(
features::kAutofillEnableAccountWalletStorage) &&
sync_service_->GetActiveDataTypes().Has(syncer::AUTOFILL_WALLET_DATA)) {
return AutofillSyncSigninState::kSignedInAndWalletSyncTransportEnabled;
}
return AutofillSyncSigninState::kSignedIn;
}
void PersonalDataManager::AddObserver(PersonalDataManagerObserver* observer) {
observers_.AddObserver(observer);
}
void PersonalDataManager::RemoveObserver(
PersonalDataManagerObserver* observer) {
observers_.RemoveObserver(observer);
}
void PersonalDataManager::MarkObserversInsufficientFormDataForImport() {
for (PersonalDataManagerObserver& observer : observers_)
observer.OnInsufficientFormData();
}
void PersonalDataManager::RecordUseOf(const AutofillDataModel& data_model) {
if (is_off_the_record_)
return;
CreditCard* credit_card = GetCreditCardByGUID(data_model.guid());
if (credit_card) {
credit_card->RecordAndLogUse();
if (credit_card->record_type() == CreditCard::LOCAL_CARD) {
// Fail silently if there's no local database, because we need to support
// this for tests.
if (database_helper_->GetLocalDatabase()) {
database_helper_->GetLocalDatabase()->UpdateCreditCard(*credit_card);
}
} else {
DCHECK(database_helper_->GetServerDatabase())
<< "Recording use of server card without server storage.";
database_helper_->GetServerDatabase()->UpdateServerCardMetadata(
*credit_card);
}
Refresh();
return;
}
AutofillProfile* profile = GetProfileByGUID(data_model.guid());
if (profile) {
if (profile->record_type() == AutofillProfile::LOCAL_PROFILE) {
profile->RecordAndLogUse();
UpdateProfileInDB(*profile, /*enforced=*/true);
} else if (profile->record_type() == AutofillProfile::SERVER_PROFILE) {
profile->RecordAndLogUse();
// TODO(crbug.com/864519): Update this once addresses support account
// storage, and also use the server database.
database_helper_->GetLocalDatabase()->UpdateServerAddressMetadata(
*profile);
Refresh();
}
}
}
void PersonalDataManager::AddProfile(const AutofillProfile& profile) {
if (!IsAutofillProfileEnabled())
return;
if (is_off_the_record_)
return;
if (!database_helper_->GetLocalDatabase())
return;
AddProfileToDB(profile);
}
void PersonalDataManager::UpdateProfile(const AutofillProfile& profile) {
if (is_off_the_record_)
return;
if (profile.IsEmpty(app_locale_)) {
RemoveByGUID(profile.guid());
return;
}
if (!database_helper_->GetLocalDatabase())
return;
UpdateProfileInDB(profile);
}
AutofillProfile* PersonalDataManager::GetProfileByGUID(
const std::string& guid) {
return GetProfileFromProfilesByGUID(guid, GetProfiles());
}
// static
AutofillProfile* PersonalDataManager::GetProfileFromProfilesByGUID(
const std::string& guid,
const std::vector<AutofillProfile*>& profiles) {
auto iter = FindElementByGUID<AutofillProfile>(profiles, guid);
return iter != profiles.end() ? *iter : nullptr;
}
void PersonalDataManager::AddCreditCard(const CreditCard& credit_card) {
if (!IsAutofillCreditCardEnabled())
return;
if (is_off_the_record_)
return;
if (credit_card.IsEmpty(app_locale_))
return;
if (FindByGUID<CreditCard>(local_credit_cards_, credit_card.guid()))
return;
if (!database_helper_->GetLocalDatabase())
return;
// Don't add a duplicate.
if (FindByContents(local_credit_cards_, credit_card))
return;
// Add the new credit card to the web database.
database_helper_->GetLocalDatabase()->AddCreditCard(credit_card);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::DeleteLocalCreditCards(
const std::vector<CreditCard>& cards) {
DCHECK(database_helper_);
DCHECK(database_helper_->GetLocalDatabase())
<< "Use of local card without local storage.";
for (const auto& card : cards)
database_helper_->GetLocalDatabase()->RemoveCreditCard(card.guid());
// Refresh the database, so latest state is reflected in all consumers.
if (!cards.empty())
Refresh();
}
void PersonalDataManager::UpdateCreditCard(const CreditCard& credit_card) {
DCHECK_EQ(CreditCard::LOCAL_CARD, credit_card.record_type());
if (is_off_the_record_)
return;
CreditCard* existing_credit_card = GetCreditCardByGUID(credit_card.guid());
if (!existing_credit_card)
return;
// Don't overwrite the origin for a credit card that is already stored.
if (existing_credit_card->Compare(credit_card) == 0)
return;
if (credit_card.IsEmpty(app_locale_)) {
RemoveByGUID(credit_card.guid());
return;
}
// Update the cached version.
*existing_credit_card = credit_card;
if (!database_helper_->GetLocalDatabase())
return;
// Make the update.
database_helper_->GetLocalDatabase()->UpdateCreditCard(credit_card);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::AddFullServerCreditCard(
const CreditCard& credit_card) {
DCHECK_EQ(CreditCard::FULL_SERVER_CARD, credit_card.record_type());
DCHECK(!credit_card.IsEmpty(app_locale_));
DCHECK(!credit_card.server_id().empty());
if (is_off_the_record_)
return;
DCHECK(database_helper_->GetServerDatabase())
<< "Adding server card without server storage.";
// Don't add a duplicate.
if (FindByGUID<CreditCard>(server_credit_cards_, credit_card.guid()) ||
FindByContents(server_credit_cards_, credit_card))
return;
// Add the new credit card to the web database.
database_helper_->GetServerDatabase()->AddFullServerCreditCard(credit_card);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::UpdateServerCreditCard(
const CreditCard& credit_card) {
DCHECK_NE(CreditCard::LOCAL_CARD, credit_card.record_type());
if (is_off_the_record_ || !database_helper_->GetServerDatabase())
return;
// Look up by server id, not GUID.
const CreditCard* existing_credit_card = nullptr;
for (const auto& server_card : server_credit_cards_) {
if (credit_card.server_id() == server_card->server_id()) {
existing_credit_card = server_card.get();
break;
}
}
if (!existing_credit_card)
return;
DCHECK_NE(existing_credit_card->record_type(), credit_card.record_type());
DCHECK_EQ(existing_credit_card->Label(), credit_card.Label());
if (existing_credit_card->record_type() == CreditCard::MASKED_SERVER_CARD) {
database_helper_->GetServerDatabase()->UnmaskServerCreditCard(
credit_card, credit_card.number());
} else {
database_helper_->GetServerDatabase()->MaskServerCreditCard(
credit_card.server_id());
}
Refresh();
}
void PersonalDataManager::UpdateServerCardMetadata(
const CreditCard& credit_card) {
DCHECK_NE(CreditCard::LOCAL_CARD, credit_card.record_type());
if (is_off_the_record_)
return;
DCHECK(database_helper_->GetServerDatabase())
<< "Updating server card metadata without server storage.";
database_helper_->GetServerDatabase()->UpdateServerCardMetadata(credit_card);
Refresh();
}
void PersonalDataManager::ResetFullServerCard(const std::string& guid) {
for (const auto& card : server_credit_cards_) {
if (card->guid() == guid) {
DCHECK_EQ(card->record_type(), CreditCard::FULL_SERVER_CARD);
CreditCard card_copy = *card;
card_copy.set_record_type(CreditCard::MASKED_SERVER_CARD);
card_copy.SetNumber(card->LastFourDigits());
UpdateServerCreditCard(card_copy);
break;
}
}
}
void PersonalDataManager::ResetFullServerCards() {
size_t nb_cards_reset = 0;
for (const auto& card : server_credit_cards_) {
if (card->record_type() == CreditCard::FULL_SERVER_CARD) {
++nb_cards_reset;
CreditCard card_copy = *card;
card_copy.set_record_type(CreditCard::MASKED_SERVER_CARD);
card_copy.SetNumber(card->LastFourDigits());
UpdateServerCreditCard(card_copy);
}
}
UMA_HISTOGRAM_COUNTS_100("Autofill.ResetFullServerCards.NumberOfCardsReset",
nb_cards_reset);
}
void PersonalDataManager::ClearAllServerData() {
// This could theoretically be called before we get the data back from the
// database on startup, and it could get called when the wallet pref is
// off (meaning this class won't even query for the server data) so don't
// check the server_credit_cards_/profiles_ before posting to the DB.
// TODO(crbug.com/864519): Move this nullcheck logic to the database helper.
// The server database can be null for a limited amount of time before the
// sync service gets initialized. Not clearing it does not matter in that case
// since it will not have been created yet (nothing to clear).
if (database_helper_->GetServerDatabase())
database_helper_->GetServerDatabase()->ClearAllServerData();
// The above call will eventually clear our server data by notifying us
// that the data changed and then this class will re-fetch. Preemptively
// clear so that tests can synchronously verify that this data was cleared.
server_credit_cards_.clear();
server_profiles_.clear();
payments_customer_data_.reset();
}
void PersonalDataManager::ClearAllLocalData() {
database_helper_->GetLocalDatabase()->ClearAllLocalData();
local_credit_cards_.clear();
web_profiles_.clear();
}
void PersonalDataManager::AddServerCreditCardForTest(
std::unique_ptr<CreditCard> credit_card) {
server_credit_cards_.push_back(std::move(credit_card));
}
bool PersonalDataManager::IsUsingAccountStorageForServerDataForTest() const {
return database_helper_->IsUsingAccountStorageForServerData();
}
void PersonalDataManager::SetSyncServiceForTest(
syncer::SyncService* sync_service) {
if (sync_service_)
sync_service_->RemoveObserver(this);
sync_service_ = sync_service;
if (sync_service_)
sync_service_->AddObserver(this);
}
void PersonalDataManager::
RemoveAutofillProfileByGUIDAndBlankCreditCardReference(
const std::string& guid) {
RemoveProfileFromDB(guid);
// Reset the billing_address_id of any card that refered to this profile.
for (CreditCard* credit_card : GetCreditCards()) {
if (credit_card->billing_address_id() == guid) {
credit_card->set_billing_address_id("");
if (credit_card->record_type() == CreditCard::LOCAL_CARD) {
database_helper_->GetLocalDatabase()->UpdateCreditCard(*credit_card);
} else {
DCHECK(database_helper_->GetServerDatabase())
<< "Updating metadata on null server db.";
database_helper_->GetServerDatabase()->UpdateServerCardMetadata(
*credit_card);
}
}
}
}
void PersonalDataManager::RemoveByGUID(const std::string& guid) {
if (is_off_the_record_)
return;
if (!database_helper_->GetLocalDatabase())
return;
bool is_credit_card = FindByGUID<CreditCard>(local_credit_cards_, guid);
if (is_credit_card) {
database_helper_->GetLocalDatabase()->RemoveCreditCard(guid);
// Refresh our local cache and send notifications to observers.
Refresh();
} else {
RemoveAutofillProfileByGUIDAndBlankCreditCardReference(guid);
}
}
CreditCard* PersonalDataManager::GetCreditCardByGUID(const std::string& guid) {
const std::vector<CreditCard*>& credit_cards = GetCreditCards();
auto iter = FindElementByGUID<CreditCard>(credit_cards, guid);
return iter != credit_cards.end() ? *iter : nullptr;
}
CreditCard* PersonalDataManager::GetCreditCardByNumber(
const std::string& number) {
CreditCard numbered_card;
numbered_card.SetNumber(base::ASCIIToUTF16(number));
for (CreditCard* credit_card : GetCreditCards()) {
DCHECK(credit_card);
if (credit_card->HasSameNumberAs(numbered_card))
return credit_card;
}
return nullptr;
}
void PersonalDataManager::GetNonEmptyTypes(
ServerFieldTypeSet* non_empty_types) const {
for (AutofillProfile* profile : GetProfiles())
profile->GetNonEmptyTypes(app_locale_, non_empty_types);
for (CreditCard* card : GetCreditCards())
card->GetNonEmptyTypes(app_locale_, non_empty_types);
}
bool PersonalDataManager::IsDataLoaded() const {
return is_data_loaded_;
}
std::vector<AutofillProfile*> PersonalDataManager::GetProfiles() const {
std::vector<AutofillProfile*> result;
result.reserve(web_profiles_.size());
for (const auto& profile : web_profiles_)
result.push_back(profile.get());
return result;
}
void PersonalDataManager::UpdateProfilesServerValidityMapsIfNeeded(
const std::vector<AutofillProfile*>& profiles) {
if (!profiles_server_validities_need_update_)
return;
profiles_server_validities_need_update_ = false;
for (auto* profile : profiles) {
profile->UpdateServerValidityMap(GetProfileValidityByGUID(profile->guid()));
}
}
void PersonalDataManager::UpdateClientValidityStates(
const std::vector<AutofillProfile*>& profiles) {
if (!base::FeatureList::IsEnabled(
autofill::features::kAutofillProfileClientValidation))
return;
if (!client_profile_validator_)
return;
// The profiles' validity states need to be updated for each major version, to
// keep up with the validation logic.
bool update_validation =
pref_service_->GetInteger(prefs::kAutofillLastVersionValidated) <
CHROME_VERSION_MAJOR;
DVLOG(1) << "Autofill profile client validation "
<< (update_validation ? "needs to be" : "has already been")
<< " performed for this version";
for (const auto* profile : profiles) {
if (!profile->is_client_validity_states_updated() || update_validation) {
profile->set_is_client_validity_states_updated(false);
ongoing_profile_changes_[profile->guid()].push_back(
AutofillProfileDeepChange(AutofillProfileChange::UPDATE, *profile));
ongoing_profile_changes_[profile->guid()].back().set_enforce_update();
client_profile_validator_->StartProfileValidation(
profile, base::BindOnce(&PersonalDataManager::OnValidated,
weak_factory_.GetWeakPtr()));
}
}
// Set the pref to the current major version if already not set.
if (update_validation)
pref_service_->SetInteger(prefs::kAutofillLastVersionValidated,
CHROME_VERSION_MAJOR);
}
bool PersonalDataManager::UpdateClientValidityStates(
const AutofillProfile& profile) {
if (!base::FeatureList::IsEnabled(
autofill::features::kAutofillProfileClientValidation) ||
!client_profile_validator_ ||
profile.is_client_validity_states_updated()) {
OnValidated(&profile);
return false;
}
client_profile_validator_->StartProfileValidation(
&profile, base::BindOnce(&PersonalDataManager::OnValidated,
weak_factory_.GetWeakPtr()));
return true;
}
std::vector<AutofillProfile*> PersonalDataManager::GetServerProfiles() const {
std::vector<AutofillProfile*> result;
if (!IsAutofillProfileEnabled())
return result;
result.reserve(server_profiles_.size());
for (const auto& profile : server_profiles_)
result.push_back(profile.get());
return result;
}
std::vector<CreditCard*> PersonalDataManager::GetLocalCreditCards() const {
std::vector<CreditCard*> result;
result.reserve(local_credit_cards_.size());
for (const auto& card : local_credit_cards_)
result.push_back(card.get());
return result;
}
std::vector<CreditCard*> PersonalDataManager::GetServerCreditCards() const {
std::vector<CreditCard*> result;
if (!IsAutofillWalletImportEnabled())
return result;
result.reserve(server_credit_cards_.size());
for (const auto& card : server_credit_cards_)
result.push_back(card.get());
return result;
}
std::vector<CreditCard*> PersonalDataManager::GetCreditCards() const {
std::vector<CreditCard*> result;
result.reserve(local_credit_cards_.size() + server_credit_cards_.size());
for (const auto& card : local_credit_cards_)
result.push_back(card.get());
if (IsAutofillWalletImportEnabled()) {
for (const auto& card : server_credit_cards_)
result.push_back(card.get());
}
return result;
}
PaymentsCustomerData* PersonalDataManager::GetPaymentsCustomerData() const {
return payments_customer_data_ ? payments_customer_data_.get() : nullptr;
}
void PersonalDataManager::Refresh() {
LoadProfiles();
LoadCreditCards();
LoadPaymentsCustomerData();
}
std::vector<AutofillProfile*> PersonalDataManager::GetProfilesToSuggest()
const {
if (!IsAutofillProfileEnabled())
return std::vector<AutofillProfile*>{};
std::vector<AutofillProfile*> profiles = GetProfiles();
bool use_server_validation = base::FeatureList::IsEnabled(
autofill::features::kAutofillProfileServerValidation);
bool use_client_validation = base::FeatureList::IsEnabled(
autofill::features::kAutofillProfileClientValidation);
// Rank the suggestions by frescocency (see AutofillDataModel for details).
// Frescocency is frecency + validity score.
const base::Time comparison_time = AutofillClock::Now();
std::sort(profiles.begin(), profiles.end(),
[comparison_time, use_client_validation, use_server_validation](
const AutofillProfile* a, const AutofillProfile* b) {
return a->HasGreaterFrescocencyThan(b, comparison_time,
use_client_validation,
use_server_validation);
});
return profiles;
}
std::vector<Suggestion> PersonalDataManager::GetProfileSuggestions(
const AutofillType& type,
const base::string16& field_contents,
bool field_is_autofilled,
const std::vector<ServerFieldType>& other_field_types) {
if (IsInAutofillSuggestionsDisabledExperiment())
return std::vector<Suggestion>();
AutofillProfileComparator comparator(app_locale_);
base::string16 field_contents_canon =
comparator.NormalizeForComparison(field_contents);
if (base::FeatureList::IsEnabled(
autofill::features::kAutofillProfileServerValidation)) {
UpdateProfilesServerValidityMapsIfNeeded(GetProfiles());
}
// Get the profiles to suggest, which are already sorted.
std::vector<AutofillProfile*> sorted_profiles = GetProfilesToSuggest();
// When suggesting with no prefix to match, consider suppressing disused
// address suggestions as well as those based on invalid profile data.
if (field_contents_canon.empty()) {
if (base::FeatureList::IsEnabled(
features::kAutofillSuppressDisusedAddresses)) {
const base::Time min_last_used =
AutofillClock::Now() - kDisusedDataModelTimeDelta;
suggestion_selection::RemoveProfilesNotUsedSinceTimestamp(
min_last_used, &sorted_profiles);
}
}
std::vector<AutofillProfile*> matched_profiles;
std::vector<Suggestion> suggestions =
suggestion_selection::GetPrefixMatchedSuggestions(
type, field_contents_canon, comparator, sorted_profiles,
&matched_profiles);
// Don't show two suggestions if one is a subset of the other.
std::vector<AutofillProfile*> unique_matched_profiles;
std::vector<Suggestion> unique_suggestions =
suggestion_selection::GetUniqueSuggestions(other_field_types, app_locale_,
matched_profiles, suggestions,
&unique_matched_profiles);
// Generate disambiguating labels based on the list of matches.
std::vector<base::string16> labels;
AutofillProfile::CreateInferredLabels(
unique_matched_profiles, &other_field_types, type.GetStorableType(), 1,
app_locale_, &labels);
DCHECK_EQ(unique_suggestions.size(), labels.size());
for (size_t i = 0; i < labels.size(); i++) {
unique_suggestions[i].label = labels[i];
// Used when two-line display is enabled.
unique_suggestions[i].additional_label = labels[i];
}
return unique_suggestions;
}
// TODO(crbug.com/613187): Investigate if it would be more efficient to dedupe
// with a vector instead of a list.
const std::vector<CreditCard*> PersonalDataManager::GetCreditCardsToSuggest(
bool include_server_cards) const {
if (!IsAutofillCreditCardEnabled())
return std::vector<CreditCard*>{};
std::vector<CreditCard*> credit_cards;
if (include_server_cards && ShouldSuggestServerCards()) {
credit_cards = GetCreditCards();
} else {
credit_cards = GetLocalCreditCards();
}
std::list<CreditCard*> cards_to_dedupe(credit_cards.begin(),
credit_cards.end());
DedupeCreditCardToSuggest(&cards_to_dedupe);
std::vector<CreditCard*> cards_to_suggest(
std::make_move_iterator(std::begin(cards_to_dedupe)),
std::make_move_iterator(std::end(cards_to_dedupe)));
// Rank the cards by frecency (see AutofillDataModel for details). All expired
// cards should be suggested last, also by frecency.
base::Time comparison_time = AutofillClock::Now();
std::stable_sort(cards_to_suggest.begin(), cards_to_suggest.end(),
[comparison_time](const CreditCard* a, const CreditCard* b) {
bool a_is_expired = a->IsExpired(comparison_time);
if (a_is_expired != b->IsExpired(comparison_time))
return !a_is_expired;
return a->HasGreaterFrecencyThan(b, comparison_time);
});
return cards_to_suggest;
}
// static
void PersonalDataManager::RemoveExpiredCreditCardsNotUsedSinceTimestamp(
base::Time comparison_time,
base::Time min_last_used,
std::vector<CreditCard*>* cards) {
const size_t original_size = cards->size();
// Split the vector into [unexpired-or-expired-but-after-timestamp,
// expired-and-before-timestamp], then delete the latter.
cards->erase(std::stable_partition(
cards->begin(), cards->end(),
[comparison_time, min_last_used](const CreditCard* c) {
return !c->IsExpired(comparison_time) ||
c->use_date() > min_last_used;
}),
cards->end());
const size_t num_cards_supressed = original_size - cards->size();
AutofillMetrics::LogNumberOfCreditCardsSuppressedForDisuse(
num_cards_supressed);
}
std::vector<Suggestion> PersonalDataManager::GetCreditCardSuggestions(
const AutofillType& type,
const base::string16& field_contents,
bool include_server_cards) {
if (IsInAutofillSuggestionsDisabledExperiment())
return std::vector<Suggestion>();
std::vector<CreditCard*> cards =
GetCreditCardsToSuggest(include_server_cards);
// If enabled, suppress disused address profiles when triggered from an empty
// field.
if (field_contents.empty() &&
base::FeatureList::IsEnabled(
features::kAutofillSuppressDisusedCreditCards)) {
const base::Time min_last_used =
AutofillClock::Now() - kDisusedDataModelTimeDelta;
RemoveExpiredCreditCardsNotUsedSinceTimestamp(AutofillClock::Now(),
min_last_used, &cards);
}
return GetSuggestionsForCards(type, field_contents, cards);
}
bool PersonalDataManager::IsAutofillEnabled() const {
return ::autofill::prefs::IsAutofillEnabled(pref_service_);
}
bool PersonalDataManager::IsAutofillProfileEnabled() const {
return ::autofill::prefs::IsProfileAutofillEnabled(pref_service_);
}
bool PersonalDataManager::IsAutofillCreditCardEnabled() const {
return ::autofill::prefs::IsCreditCardAutofillEnabled(pref_service_);
}
bool PersonalDataManager::IsAutofillWalletImportEnabled() const {
return ::autofill::prefs::IsPaymentsIntegrationEnabled(pref_service_);
}
bool PersonalDataManager::ShouldSuggestServerCards() const {
if (!IsAutofillWalletImportEnabled())
return false;
if (is_syncing_for_test_)
return true;
if (!sync_service_)
return false;
// Check if the user is in sync transport mode for wallet data.
if (!sync_service_->IsSyncFeatureEnabled() &&
base::FeatureList::IsEnabled(
features::kAutofillEnableAccountWalletStorage)) {
// For SyncTransport, only show server cards if the user has opted in to
// seeing them in the dropdown, or if the feature to always show server
// cards is enabled.
if (!base::FeatureList::IsEnabled(
features::kAutofillAlwaysShowServerCardsInSyncTransport) &&
!prefs::IsUserOptedInWalletSyncTransport(
pref_service_,
sync_service_->GetAuthenticatedAccountInfo().account_id)) {
return false;
}
}
// Server cards should be suggested if the sync service is active.
// We check for persistent auth errors, because we don't want to offer server
// cards when the user is in the "sync paused" state.
return sync_service_->GetActiveDataTypes().Has(
syncer::AUTOFILL_WALLET_DATA) &&
!sync_service_->GetAuthError().IsPersistentError();
}
std::string PersonalDataManager::CountryCodeForCurrentTimezone() const {
return base::CountryCodeForCurrentTimezone();
}
void PersonalDataManager::SetPrefService(PrefService* pref_service) {
wallet_enabled_pref_ = std::make_unique<BooleanPrefMember>();
profile_enabled_pref_ = std::make_unique<BooleanPrefMember>();
credit_card_enabled_pref_ = std::make_unique<BooleanPrefMember>();
pref_service_ = pref_service;
// |pref_service_| can be nullptr in tests. Using base::Unretained(this) is
// safe because observer instances are destroyed once |this| is destroyed.
if (pref_service_) {
credit_card_enabled_pref_->Init(
prefs::kAutofillCreditCardEnabled, pref_service_,
base::BindRepeating(&PersonalDataManager::EnableAutofillPrefChanged,
base::Unretained(this)));
profile_enabled_pref_->Init(
prefs::kAutofillProfileEnabled, pref_service_,
base::BindRepeating(&PersonalDataManager::EnableAutofillPrefChanged,
base::Unretained(this)));
wallet_enabled_pref_->Init(
prefs::kAutofillWalletImportEnabled, pref_service_,
base::BindRepeating(
&PersonalDataManager::EnableWalletIntegrationPrefChanged,
base::Unretained(this)));
}
}
void PersonalDataManager::ClearProfileNonSettingsOrigins() {
for (AutofillProfile* profile : GetProfiles()) {
if (profile->origin() != kSettingsOrigin && !profile->origin().empty()) {
profile->set_origin(std::string());
UpdateProfileInDB(*profile, /*enforced=*/true);
}
}
}
void PersonalDataManager::ClearCreditCardNonSettingsOrigins() {
bool has_updated = false;
for (CreditCard* card : GetLocalCreditCards()) {
if (card->origin() != kSettingsOrigin && !card->origin().empty()) {
card->set_origin(std::string());
database_helper_->GetLocalDatabase()->UpdateCreditCard(*card);
has_updated = true;
}
}
// Refresh the local cache and send notifications to observers if a changed
// was made.
if (has_updated)
Refresh();
}
void PersonalDataManager::MoveJapanCityToStreetAddress() {
if (!database_helper_->GetLocalDatabase())
return;
// Don't run if the migration has already been performed.
if (pref_service_->GetBoolean(prefs::kAutofillJapanCityFieldMigrated))
return;
base::string16 japan_country_code = base::ASCIIToUTF16("JP");
base::string16 line_separator = base::ASCIIToUTF16("\n");
for (AutofillProfile* profile : GetProfiles()) {
base::string16 country_code = profile->GetRawInfo(ADDRESS_HOME_COUNTRY);
base::string16 city = profile->GetRawInfo(ADDRESS_HOME_CITY);
if (country_code == japan_country_code && !city.empty()) {
base::string16 street_address =
profile->GetRawInfo(ADDRESS_HOME_STREET_ADDRESS);
street_address = street_address.empty()
? city
: street_address + line_separator + city;
profile->SetRawInfo(ADDRESS_HOME_STREET_ADDRESS, street_address);
profile->SetRawInfo(ADDRESS_HOME_CITY, base::string16());
UpdateProfileInDB(*profile, /*enforced=*/true);
}
}
// Set the pref so that this migration is never run again.
pref_service_->SetBoolean(prefs::kAutofillJapanCityFieldMigrated, true);
}
void PersonalDataManager::OnValidated(const AutofillProfile* profile) {
if (!profile)
return;
if (!ProfileChangesAreOnGoing(profile->guid()))
return;
// Set the validity states updated, only when the validation has occurred. If
// the rules were not loaded for any reason, don't set the flag.
bool validity_updated =
(profile->GetValidityState(ServerFieldType::ADDRESS_HOME_COUNTRY,
AutofillProfile::CLIENT) !=
AutofillProfile::UNVALIDATED);
// For every relevant profile change on the ongoing_profile_changes_, mark the
// change to show that the validation is done, and set the validity of the
// profile if the validity was updated.
for (const auto& change : ongoing_profile_changes_[profile->guid()]) {
if (!profile->EqualsForClientValidationPurpose(*(change.profile())))
continue;
change.validation_effort_made();
if (validity_updated) {
change.profile()->set_is_client_validity_states_updated(true);
change.profile()->SetClientValidityFromBitfieldValue(
profile->GetClientValidityBitfieldValue());
}
}
HandleNextProfileChange(profile->guid());
}
const ProfileValidityMap& PersonalDataManager::GetProfileValidityByGUID(
const std::string& guid) {
static const ProfileValidityMap& empty_validity_map = ProfileValidityMap();
if (!synced_profile_validity_) {
profiles_server_validities_need_update_ = true;
synced_profile_validity_ = std::make_unique<UserProfileValidityMap>();
if (!synced_profile_validity_->ParseFromString(
::autofill::prefs::GetAllProfilesValidityMapsEncodedString(
pref_service_))) {
return empty_validity_map;
}
}
auto it = synced_profile_validity_->profile_validity().find(guid);
if (it != synced_profile_validity_->profile_validity().end()) {
return it->second;
}
return empty_validity_map;
}
// static
std::string PersonalDataManager::MergeProfile(
const AutofillProfile& new_profile,
std::vector<std::unique_ptr<AutofillProfile>>* existing_profiles,
const std::string& app_locale,
std::vector<AutofillProfile>* merged_profiles) {
merged_profiles->clear();
// Sort the existing profiles in decreasing order of frecency, so the "best"
// profiles are checked first. Put the verified profiles last so the non
// verified profiles get deduped among themselves before reaching the verified
// profiles.
// TODO(crbug.com/620521): Remove the check for verified from the sort.
base::Time comparison_time = AutofillClock::Now();
std::sort(existing_profiles->begin(), existing_profiles->end(),
[comparison_time](const std::unique_ptr<AutofillProfile>& a,
const std::unique_ptr<AutofillProfile>& b) {
if (a->IsVerified() != b->IsVerified())
return !a->IsVerified();
return a->HasGreaterFrecencyThan(b.get(), comparison_time);
});
// Set to true if |existing_profiles| already contains an equivalent profile.
bool matching_profile_found = false;
std::string guid = new_profile.guid();
// If we have already saved this address, merge in any missing values.
// Only merge with the first match. Merging the new profile into the existing
// one preserves the validity of credit card's billing address reference.
AutofillProfileComparator comparator(app_locale);
for (const auto& existing_profile : *existing_profiles) {
if (!matching_profile_found &&
comparator.AreMergeable(new_profile, *existing_profile) &&
existing_profile->SaveAdditionalInfo(new_profile, app_locale)) {
// Unverified profiles should always be updated with the newer data,
// whereas verified profiles should only ever be overwritten by verified
// data. If an automatically aggregated profile would overwrite a
// verified profile, just drop it.
matching_profile_found = true;
guid = existing_profile->guid();
// We set the modification date so that immediate requests for profiles
// will properly reflect the fact that this profile has been modified
// recently. After writing to the database and refreshing the local copies
// the profile will have a very slightly newer time reflecting what's
// actually stored in the database.
existing_profile->set_modification_date(AutofillClock::Now());
}
merged_profiles->push_back(*existing_profile);
}
// If the new profile was not merged with an existing one, add it to the list.
if (!matching_profile_found) {
merged_profiles->push_back(new_profile);
// Similar to updating merged profiles above, set the modification date on
// new profiles.
merged_profiles->back().set_modification_date(AutofillClock::Now());
AutofillMetrics::LogProfileActionOnFormSubmitted(
AutofillMetrics::NEW_PROFILE_CREATED);
}
return guid;
}
bool PersonalDataManager::IsCountryOfInterest(
const std::string& country_code) const {
DCHECK_EQ(2U, country_code.size());
const std::vector<AutofillProfile*>& profiles = GetProfiles();
std::list<std::string> country_codes;
for (size_t i = 0; i < profiles.size(); ++i) {
country_codes.push_back(base::ToLowerASCII(
base::UTF16ToASCII(profiles[i]->GetRawInfo(ADDRESS_HOME_COUNTRY))));
}
std::string timezone_country = CountryCodeForCurrentTimezone();
if (!timezone_country.empty())
country_codes.push_back(base::ToLowerASCII(timezone_country));
// Only take the locale into consideration if all else fails.
if (country_codes.empty()) {
country_codes.push_back(base::ToLowerASCII(
AutofillCountry::CountryCodeForLocale(app_locale())));
}
return base::ContainsValue(country_codes, base::ToLowerASCII(country_code));
}
const std::string& PersonalDataManager::GetDefaultCountryCodeForNewAddress()
const {
if (default_country_code_.empty())
default_country_code_ = MostCommonCountryCodeFromProfiles();
// Failing that, guess based on system timezone.
if (default_country_code_.empty())
default_country_code_ = CountryCodeForCurrentTimezone();
// Failing that, guess based on locale.
if (default_country_code_.empty())
default_country_code_ = AutofillCountry::CountryCodeForLocale(app_locale());
return default_country_code_;
}
// static
void PersonalDataManager::DedupeCreditCardToSuggest(
std::list<CreditCard*>* cards_to_suggest) {
for (auto outer_it = cards_to_suggest->begin();
outer_it != cards_to_suggest->end(); ++outer_it) {
// If considering a full server card, look for local cards that are
// duplicates of it and remove them.
if ((*outer_it)->record_type() == CreditCard::FULL_SERVER_CARD) {
for (auto inner_it = cards_to_suggest->begin();
inner_it != cards_to_suggest->end();) {
auto inner_it_copy = inner_it++;
if ((*inner_it_copy)->IsLocalDuplicateOfServerCard(**outer_it))
cards_to_suggest->erase(inner_it_copy);
}
// If considering a local card, look for masked server cards that are
// duplicates of it and remove them.
} else if ((*outer_it)->record_type() == CreditCard::LOCAL_CARD) {
for (auto inner_it = cards_to_suggest->begin();
inner_it != cards_to_suggest->end();) {
auto inner_it_copy = inner_it++;
if ((*inner_it_copy)->record_type() == CreditCard::MASKED_SERVER_CARD &&
(*outer_it)->IsLocalDuplicateOfServerCard(**inner_it_copy)) {
cards_to_suggest->erase(inner_it_copy);
}
}
}
}
}
void PersonalDataManager::SetProfiles(std::vector<AutofillProfile>* profiles) {
if (is_off_the_record_)
return;
if (!database_helper_->GetLocalDatabase())
return;
ClearOnGoingProfileChanges();
// Any profiles that are not in the new profile list should be removed from
// the web database
for (const auto& it : web_profiles_) {
if (!FindByGUID<AutofillProfile>(*profiles, it->guid()))
RemoveProfileFromDB(it->guid());
}
// Update the web database with the new and existing profiles.
for (const AutofillProfile& it : *profiles) {
if (FindByGUID<AutofillProfile>(web_profiles_, it.guid())) {
UpdateProfileInDB(it);
} else {
AddProfileToDB(it);
}
}
// Copy in the new profiles.
web_profiles_.clear();
for (const AutofillProfile& it : *profiles) {
web_profiles_.push_back(std::make_unique<AutofillProfile>(it));
}
}
void PersonalDataManager::SetCreditCards(
std::vector<CreditCard>* credit_cards) {
if (is_off_the_record_)
return;
// Remove empty credit cards from input.
base::EraseIf(*credit_cards, IsEmptyFunctor<CreditCard>(app_locale_));
if (!database_helper_->GetLocalDatabase())
return;
// Any credit cards that are not in the new credit card list should be
// removed.
for (const auto& card : local_credit_cards_) {
if (!FindByGUID<CreditCard>(*credit_cards, card->guid()))
database_helper_->GetLocalDatabase()->RemoveCreditCard(card->guid());
}
// Update the web database with the existing credit cards.
for (const CreditCard& card : *credit_cards) {
if (FindByGUID<CreditCard>(local_credit_cards_, card.guid()))
database_helper_->GetLocalDatabase()->UpdateCreditCard(card);
}
// Add the new credit cards to the web database. Don't add a duplicate.
for (const CreditCard& card : *credit_cards) {
if (!FindByGUID<CreditCard>(local_credit_cards_, card.guid()) &&
!FindByContents(local_credit_cards_, card))
database_helper_->GetLocalDatabase()->AddCreditCard(card);
}
// Copy in the new credit cards.
local_credit_cards_.clear();
for (const CreditCard& card : *credit_cards)
local_credit_cards_.push_back(std::make_unique<CreditCard>(card));
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::LoadProfiles() {
if (!database_helper_->GetLocalDatabase()) {
NOTREACHED();
return;
}
CancelPendingLocalQuery(&pending_profiles_query_);
CancelPendingServerQuery(&pending_server_profiles_query_);
pending_profiles_query_ =
database_helper_->GetLocalDatabase()->GetAutofillProfiles(this);
if (database_helper_->GetServerDatabase()) {
pending_server_profiles_query_ =
database_helper_->GetServerDatabase()->GetServerProfiles(this);
}
}
void PersonalDataManager::LoadCreditCards() {
if (!database_helper_->GetLocalDatabase()) {
NOTREACHED();
return;
}
CancelPendingLocalQuery(&pending_creditcards_query_);
CancelPendingServerQuery(&pending_server_creditcards_query_);
pending_creditcards_query_ =
database_helper_->GetLocalDatabase()->GetCreditCards(this);
if (database_helper_->GetServerDatabase()) {
pending_server_creditcards_query_ =
database_helper_->GetServerDatabase()->GetServerCreditCards(this);
}
}
void PersonalDataManager::CancelPendingLocalQuery(
WebDataServiceBase::Handle* handle) {
if (*handle) {
if (!database_helper_->GetLocalDatabase()) {
NOTREACHED();
return;
}
database_helper_->GetLocalDatabase()->CancelRequest(*handle);
}
*handle = 0;
}
void PersonalDataManager::CancelPendingServerQuery(
WebDataServiceBase::Handle* handle) {
if (*handle) {
if (!database_helper_->GetServerDatabase()) {
NOTREACHED();
return;
}
database_helper_->GetServerDatabase()->CancelRequest(*handle);
}
*handle = 0;
}
void PersonalDataManager::CancelPendingServerQueries() {
if (pending_server_profiles_query_) {
CancelPendingServerQuery(&pending_server_profiles_query_);
}
if (pending_server_creditcards_query_) {
CancelPendingServerQuery(&pending_server_creditcards_query_);
}
if (pending_customer_data_query_) {
CancelPendingServerQuery(&pending_customer_data_query_);
}
}
void PersonalDataManager::LoadPaymentsCustomerData() {
if (!database_helper_->GetServerDatabase())
return;
CancelPendingServerQuery(&pending_customer_data_query_);
pending_customer_data_query_ =
database_helper_->GetServerDatabase()->GetPaymentsCustomerData(this);
}
std::string PersonalDataManager::SaveImportedProfile(
const AutofillProfile& imported_profile) {
if (is_off_the_record_)
return std::string();
std::vector<AutofillProfile> profiles;
std::string guid =
MergeProfile(imported_profile, &web_profiles_, app_locale_, &profiles);
SetProfiles(&profiles);
return guid;
}
void PersonalDataManager::NotifyPersonalDataChanged() {
bool profile_changes_are_on_going = ProfileChangesAreOnGoing();
for (PersonalDataManagerObserver& observer : observers_) {
observer.OnPersonalDataChanged();
if (!profile_changes_are_on_going) {
observer.OnPersonalDataFinishedProfileTasks();
}
}
// If new data was synced, try to convert new server profiles and update
// server cards.
if (has_synced_new_data_) {
has_synced_new_data_ = false;
ConvertWalletAddressesAndUpdateWalletCards();
}
}
std::string PersonalDataManager::OnAcceptedLocalCreditCardSave(
const CreditCard& imported_card) {
DCHECK(!imported_card.number().empty());
if (is_off_the_record_)
return std::string();
// Log that local credit card save reached the PersonalDataManager. This is a
// temporary metric to measure the impact, if any, of CreditCardSaveManager's
// destruction before its callbacks are executed.
// TODO(crbug.com/892299): Remove this once the overall problem is fixed.
AutofillMetrics::LogSaveCardReachedPersonalDataManager(/*is_local=*/true);
return SaveImportedCreditCard(imported_card);
}
std::string PersonalDataManager::SaveImportedCreditCard(
const CreditCard& imported_card) {
// Set to true if |imported_card| is merged into the credit card list.
bool merged = false;
std::string guid = imported_card.guid();
std::vector<CreditCard> credit_cards;
for (auto& card : local_credit_cards_) {
// If |imported_card| has not yet been merged, check whether it should be
// with the current |card|.
if (!merged && card->UpdateFromImportedCard(imported_card, app_locale_)) {
guid = card->guid();
merged = true;
}
credit_cards.push_back(*card);
}
if (!merged)
credit_cards.push_back(imported_card);
SetCreditCards(&credit_cards);
return guid;
}
void PersonalDataManager::LogStoredProfileMetrics() const {
if (!has_logged_stored_profile_metrics_) {
// Update the histogram of how many addresses the user has stored.
AutofillMetrics::LogStoredProfileCount(web_profiles_.size());
// If the user has stored addresses, log the distribution of days since
// their last use and how many would be considered disused.
if (!web_profiles_.empty()) {
size_t num_disused_profiles = 0;
const base::Time now = AutofillClock::Now();
for (const std::unique_ptr<AutofillProfile>& profile : web_profiles_) {
const base::TimeDelta time_since_last_use = now - profile->use_date();
AutofillMetrics::LogStoredProfileDaysSinceLastUse(
time_since_last_use.InDays());
if (time_since_last_use > kDisusedDataModelTimeDelta)
++num_disused_profiles;
}
AutofillMetrics::LogStoredProfileDisusedCount(num_disused_profiles);
}
// Only log this info once per chrome user profile load.
has_logged_stored_profile_metrics_ = true;
}
}
void PersonalDataManager::LogStoredCreditCardMetrics() const {
if (!has_logged_stored_credit_card_metrics_) {
AutofillMetrics::LogStoredCreditCardMetrics(
local_credit_cards_, server_credit_cards_, kDisusedDataModelTimeDelta);
// Only log this info once per chrome user profile load.
has_logged_stored_credit_card_metrics_ = true;
}
}
std::string PersonalDataManager::MostCommonCountryCodeFromProfiles() const {
if (!IsAutofillEnabled())
return std::string();
// Count up country codes from existing profiles.
std::map<std::string, int> votes;
// TODO(estade): can we make this GetProfiles() instead? It seems to cause
// errors in tests on mac trybots. See http://crbug.com/57221
const std::vector<AutofillProfile*>& profiles = GetProfiles();
const std::vector<std::string>& country_codes =
CountryDataMap::GetInstance()->country_codes();
for (size_t i = 0; i < profiles.size(); ++i) {
std::string country_code = base::ToUpperASCII(
base::UTF16ToASCII(profiles[i]->GetRawInfo(ADDRESS_HOME_COUNTRY)));
if (base::ContainsValue(country_codes, country_code)) {
// Verified profiles count 100x more than unverified ones.
votes[country_code] += profiles[i]->IsVerified() ? 100 : 1;
}
}
// Take the most common country code.
if (!votes.empty()) {
auto iter = std::max_element(votes.begin(), votes.end(), CompareVotes);
return iter->first;
}
return std::string();
}
void PersonalDataManager::EnableWalletIntegrationPrefChanged() {
if (!prefs::IsPaymentsIntegrationEnabled(pref_service_)) {
// Re-mask all server cards when the user turns off wallet card
// integration.
ResetFullServerCards();
NotifyPersonalDataChanged();
}
}
void PersonalDataManager::EnableAutofillPrefChanged() {
default_country_code_.clear();
// Refresh our local cache and send notifications to observers.
Refresh();
}
bool PersonalDataManager::IsKnownCard(const CreditCard& credit_card) const {
const auto stripped_pan = CreditCard::StripSeparators(credit_card.number());
for (const auto& card : local_credit_cards_) {
if (stripped_pan == CreditCard::StripSeparators(card->number()))
return true;
}
const auto masked_info = credit_card.NetworkAndLastFourDigits();
for (const auto& card : server_credit_cards_) {
switch (card->record_type()) {
case CreditCard::FULL_SERVER_CARD:
if (stripped_pan == CreditCard::StripSeparators(card->number()))
return true;
break;
case CreditCard::MASKED_SERVER_CARD:
if (masked_info == card->NetworkAndLastFourDigits())
return true;
break;
default:
NOTREACHED();
}
}
return false;
}
bool PersonalDataManager::IsServerCard(const CreditCard* credit_card) const {
// Check whether the current card itself is a server card.
if (credit_card->record_type() != autofill::CreditCard::LOCAL_CARD)
return true;
std::vector<CreditCard*> server_credit_cards = GetServerCreditCards();
// Check whether the current card is already uploaded.
for (const CreditCard* server_card : server_credit_cards) {
if (credit_card->HasSameNumberAs(*server_card))
return true;
}
return false;
}
bool PersonalDataManager::ShouldShowCardsFromAccountOption() const {
// The feature is only for Linux, Windows and Mac.
#if (!defined(OS_LINUX) && !defined(OS_WIN) && !defined(OS_MACOSX)) || \
defined(OS_CHROMEOS)
return false;
#endif // (!defined(OS_LINUX) && !defined(OS_WIN) && !defined(OS_MACOSX)) ||
// defined(OS_CHROMEOS)
// This option should only be shown for users that have not enabled the Sync
// Feature and that have server credit cards available.
if (!sync_service_ || sync_service_->IsSyncFeatureEnabled() ||
GetServerCreditCards().empty()) {
return false;
}
// If we have not returned yet, it should mean that the user is in Sync
// Transport mode for Wallet data (Sync Feature disabled but has server
// cards). This should only happen if that feature is enabled.
DCHECK(base::FeatureList::IsEnabled(
features::kAutofillEnableAccountWalletStorage));
// If the feature to always show the server cards in sync transport mode is
// enabled, don't show the option.
if (base::FeatureList::IsEnabled(
features::kAutofillAlwaysShowServerCardsInSyncTransport)) {
return false;
}
bool is_opted_in = prefs::IsUserOptedInWalletSyncTransport(
pref_service_, sync_service_->GetAuthenticatedAccountInfo().account_id);
AutofillMetrics::LogWalletSyncTransportCardsOptIn(is_opted_in);
// The option should only be shown if the user has not already opted-in.
return !is_opted_in;
}
void PersonalDataManager::OnUserAcceptedCardsFromAccountOption() {
DCHECK_EQ(AutofillSyncSigninState::kSignedInAndWalletSyncTransportEnabled,
GetSyncSigninState());
prefs::SetUserOptedInWalletSyncTransport(
pref_service_, sync_service_->GetAuthenticatedAccountInfo().account_id,
/*opted_in=*/true);
}
void PersonalDataManager::OnAutofillProfileChanged(
const AutofillProfileDeepChange& change) {
const auto& guid = change.key();
const auto& change_type = change.type();
const auto& profile = *(change.profile());
DCHECK(guid == profile.guid());
// Happens only in tests.
if (!ProfileChangesAreOnGoing(guid)) {
DVLOG(1) << "Received an unexpected response from database.";
return;
}
const auto* existing_profile = GetProfileByGUID(guid);
const bool profile_exists = (existing_profile != nullptr);
switch (change_type) {
case AutofillProfileChange::ADD:
profiles_server_validities_need_update_ = true;
if (!profile_exists && !FindByContents(web_profiles_, profile)) {
web_profiles_.push_back(std::make_unique<AutofillProfile>(profile));
}
break;
case AutofillProfileChange::UPDATE:
profiles_server_validities_need_update_ = true;
if (profile_exists &&
(change.enforce_update() ||
!existing_profile->EqualsForUpdatePurposes(profile))) {
web_profiles_.erase(
FindElementByGUID<AutofillProfile>(web_profiles_, guid));
web_profiles_.push_back(std::make_unique<AutofillProfile>(profile));
}
break;
case AutofillProfileChange::REMOVE:
if (profile_exists) {
web_profiles_.erase(
FindElementByGUID<AutofillProfile>(web_profiles_, guid));
}
break;
default:
NOTREACHED();
}
OnProfileChangeDone(guid);
}
void PersonalDataManager::LogServerCardLinkClicked() const {
AutofillMetrics::LogServerCardLinkClicked(GetSyncSigninState());
}
void PersonalDataManager::OnUserAcceptedUpstreamOffer() {
// If the user is in sync transport mode for Wallet, record an opt-in.
if (GetSyncSigninState() ==
AutofillSyncSigninState::kSignedInAndWalletSyncTransportEnabled) {
prefs::SetUserOptedInWalletSyncTransport(
pref_service_, sync_service_->GetAuthenticatedAccountInfo().account_id,
/*opted_in=*/true);
}
}
std::vector<Suggestion> PersonalDataManager::GetSuggestionsForCards(
const AutofillType& type,
const base::string16& field_contents,
const std::vector<CreditCard*>& cards_to_suggest) const {
std::vector<Suggestion> suggestions;
base::string16 field_contents_lower = base::i18n::ToLower(field_contents);
for (const CreditCard* credit_card : cards_to_suggest) {
// The value of the stored data for this field type in the |credit_card|.
base::string16 creditcard_field_value =
credit_card->GetInfo(type, app_locale_);
if (creditcard_field_value.empty())
continue;
base::string16 creditcard_field_lower =
base::i18n::ToLower(creditcard_field_value);
bool prefix_matched_suggestion;
if (suggestion_selection::IsValidSuggestionForFieldContents(
creditcard_field_lower, field_contents_lower, type,
credit_card->record_type() == CreditCard::MASKED_SERVER_CARD,
&prefix_matched_suggestion)) {
// Make a new suggestion.
suggestions.push_back(Suggestion());
Suggestion* suggestion = &suggestions.back();
suggestion->value = credit_card->GetInfo(type, app_locale_);
suggestion->icon = base::UTF8ToUTF16(credit_card->network());
suggestion->backend_id = credit_card->guid();
suggestion->match = prefix_matched_suggestion
? Suggestion::PREFIX_MATCH
: Suggestion::SUBSTRING_MATCH;
// If the value is the card number, the label is the expiration date.
// Otherwise the label is the card number, or if that is empty the
// cardholder name. The label should never repeat the value.
if (type.GetStorableType() == CREDIT_CARD_NUMBER) {
suggestion->value = credit_card->NetworkOrBankNameAndLastFourDigits();
suggestion->label = credit_card->GetInfo(
AutofillType(CREDIT_CARD_EXP_DATE_2_DIGIT_YEAR), app_locale_);
// The additional label will be used if two-line display is enabled.
suggestion->additional_label =
credit_card->DescriptiveExpiration(app_locale_);
} else if (credit_card->number().empty()) {
if (type.GetStorableType() != CREDIT_CARD_NAME_FULL) {
suggestion->label = credit_card->GetInfo(
AutofillType(CREDIT_CARD_NAME_FULL), app_locale_);
}
} else {
#if defined(OS_ANDROID)
// Since Android places the label on its own row, there's more
// horizontal space to work with. Show "Amex - 1234" rather than
// desktop's "****1234".
suggestion->label = credit_card->NetworkOrBankNameAndLastFourDigits();
#else
suggestion->label = credit_card->ObfuscatedLastFourDigits();
// Ad the card number with expiry information in the additional
// label portion so that we an show it when two-line display is
// enabled.
suggestion->additional_label =
credit_card
->NetworkOrBankNameLastFourDigitsAndDescriptiveExpiration(
app_locale_);
#endif
}
}
}
// Prefix matches should precede other token matches.
if (IsFeatureSubstringMatchEnabled()) {
std::stable_sort(suggestions.begin(), suggestions.end(),
[](const Suggestion& a, const Suggestion& b) {
return a.match < b.match;
});
}
return suggestions;
}
void PersonalDataManager::RemoveOrphanAutofillTableRows() {
// Don't run if the fix has already been applied.
if (pref_service_->GetBoolean(prefs::kAutofillOrphanRowsRemoved))
return;
if (!database_helper_->GetLocalDatabase())
return;
database_helper_->GetLocalDatabase()->RemoveOrphanAutofillTableRows();
// Set the pref so that this fix is never run again.
pref_service_->SetBoolean(prefs::kAutofillOrphanRowsRemoved, true);
}
bool PersonalDataManager::ApplyDedupingRoutine() {
if (!is_autofill_profile_cleanup_pending_)
return false;
is_autofill_profile_cleanup_pending_ = false;
// No need to de-duplicate if there are less than two profiles.
if (web_profiles_.size() < 2) {
DVLOG(1) << "Autofill profile de-duplication not needed.";
return false;
}
// Check if de-duplication has already been performed this major version.
if (pref_service_->GetInteger(prefs::kAutofillLastVersionDeduped) >=
CHROME_VERSION_MAJOR) {
DVLOG(1)
<< "Autofill profile de-duplication already performed for this version";
return false;
}
DVLOG(1) << "Starting autofill profile de-duplication.";
std::unordered_set<std::string> profiles_to_delete;
profiles_to_delete.reserve(web_profiles_.size());
// Create the map used to update credit card's billing addresses after the
// dedupe.
std::unordered_map<std::string, std::string> guids_merge_map;
// The changes can't happen directly on the web_profiles_, but need to be
// updated in the database at first, and then updated on the web_profiles_.
// Therefore, we need a copy of web_profiles_ to keep track of the changes.
std::vector<std::unique_ptr<AutofillProfile>> new_profiles;
for (const auto& it : web_profiles_) {
new_profiles.push_back(std::make_unique<AutofillProfile>(*(it.get())));
}
DedupeProfiles(&new_profiles, &profiles_to_delete, &guids_merge_map);
// Apply the profile changes to the database.
for (const auto& profile : new_profiles) {
// If the profile was set to be deleted, remove it from the database,
// otherwise update it.
if (profiles_to_delete.count(profile->guid())) {
RemoveProfileFromDB(profile->guid());
} else {
UpdateProfileInDB(*(profile.get()));
}
}
UpdateCardsBillingAddressReference(guids_merge_map);
// Set the pref to the current major version.
pref_service_->SetInteger(prefs::kAutofillLastVersionDeduped,
CHROME_VERSION_MAJOR);
return true;
}
void PersonalDataManager::DedupeProfiles(
std::vector<std::unique_ptr<AutofillProfile>>* existing_profiles,
std::unordered_set<std::string>* profiles_to_delete,
std::unordered_map<std::string, std::string>* guids_merge_map) const {
AutofillMetrics::LogNumberOfProfilesConsideredForDedupe(
existing_profiles->size());
// Sort the profiles by frecency with all the verified profiles at the end.
// That way the most relevant profiles will get merged into the less relevant
// profiles, which keeps the syntax of the most relevant profiles data.
// Verified profiles are put at the end because they do not merge into other
// profiles, so the loop can be stopped when we reach those. However they need
// to be in the vector because an unverified profile trying to merge into a
// similar verified profile will be discarded.
base::Time comparison_time = AutofillClock::Now();
std::sort(existing_profiles->begin(), existing_profiles->end(),
[comparison_time](const std::unique_ptr<AutofillProfile>& a,
const std::unique_ptr<AutofillProfile>& b) {
if (a->IsVerified() != b->IsVerified())
return !a->IsVerified();
return a->HasGreaterFrecencyThan(b.get(), comparison_time);
});
AutofillProfileComparator comparator(app_locale_);
for (size_t i = 0; i < existing_profiles->size(); ++i) {
AutofillProfile* profile_to_merge = (*existing_profiles)[i].get();
// If the profile was set to be deleted, skip it. It has already been
// merged into another profile.
if (profiles_to_delete->count(profile_to_merge->guid()))
continue;
// If we have reached the verified profiles, stop trying to merge. Verified
// profiles do not get merged.
if (profile_to_merge->IsVerified())
break;
// If we have not reached the last profile, try to merge |profile_to_merge|
// with all the less relevant |existing_profiles|.
for (size_t j = i + 1; j < existing_profiles->size(); ++j) {
AutofillProfile* existing_profile = (*existing_profiles)[j].get();
// Don't try to merge a profile that was already set for deletion.
if (profiles_to_delete->count(existing_profile->guid()))
continue;
// Move on if the profiles are not mergeable.
if (!comparator.AreMergeable(*existing_profile, *profile_to_merge))
continue;
// The profiles are found to be mergeable. Attempt to update the existing
// profile. This returns true if the merge was successful, or if the
// merge would have been successful but the existing profile IsVerified()
// and will not accept updates from profile_to_merge.
if (existing_profile->SaveAdditionalInfo(*profile_to_merge,
app_locale_)) {
// Keep track that a credit card using |profile_to_merge|'s GUID as its
// billing address id should replace it by |existing_profile|'s GUID.
guids_merge_map->emplace(profile_to_merge->guid(),
existing_profile->guid());
// Since |profile_to_merge| was a duplicate of |existing_profile|
// and was merged successfully, it can now be deleted.
profiles_to_delete->insert(profile_to_merge->guid());
// Now try to merge the new resulting profile with the rest of the
// existing profiles.
profile_to_merge = existing_profile;
// Verified profiles do not get merged. Save some time by not
// trying.
if (profile_to_merge->IsVerified())
break;
}
}
}
AutofillMetrics::LogNumberOfProfilesRemovedDuringDedupe(
profiles_to_delete->size());
}
void PersonalDataManager::UpdateCardsBillingAddressReference(
const std::unordered_map<std::string, std::string>& guids_merge_map) {
/* Here is an example of what the graph might look like.
A -> B
\
-> E
/
C -> D
*/
for (auto* credit_card : GetCreditCards()) {
// If the credit card is not associated with a billing address, skip it.
if (credit_card->billing_address_id().empty())
break;
// If the billing address profile associated with the card has been merged,
// replace it by the id of the profile in which it was merged. Repeat the
// process until the billing address has not been merged into another one.
std::unordered_map<std::string, std::string>::size_type nb_guid_changes = 0;
bool was_modified = false;
auto it = guids_merge_map.find(credit_card->billing_address_id());
while (it != guids_merge_map.end()) {
was_modified = true;
credit_card->set_billing_address_id(it->second);
it = guids_merge_map.find(credit_card->billing_address_id());
// Out of abundance of caution.
if (nb_guid_changes > guids_merge_map.size()) {
NOTREACHED();
// Cancel the changes for that card.
was_modified = false;
break;
}
}
// If the card was modified, apply the changes to the database.
if (was_modified) {
if (credit_card->record_type() == CreditCard::LOCAL_CARD)
database_helper_->GetLocalDatabase()->UpdateCreditCard(*credit_card);
else
database_helper_->GetServerDatabase()->UpdateServerCardMetadata(
*credit_card);
}
}
Refresh();
}
void PersonalDataManager::ConvertWalletAddressesAndUpdateWalletCards() {
// Copy the local profiles into a vector<AutofillProfile>. Theses are the
// existing profiles. Get them sorted in decreasing order of frecency, so the
// "best" profiles are checked first. Put the verified profiles last so the
// server addresses have a chance to merge into the non-verified local
// profiles.
std::vector<AutofillProfile> local_profiles;
for (AutofillProfile* existing_profile : GetProfiles()) {
local_profiles.push_back(*existing_profile);
}
// Since we are already iterating on all the server profiles to convert Wallet
// addresses and we will need to access them by guid later to update the
// Wallet cards, create a map here.
std::unordered_map<std::string, AutofillProfile*> server_id_profiles_map;
// Create the map used to update credit card's billing addresses after the
// conversion/merge.
std::unordered_map<std::string, std::string> guids_merge_map;
bool has_converted_addresses = ConvertWalletAddressesToLocalProfiles(
&local_profiles, &server_id_profiles_map, &guids_merge_map);
bool should_update_cards = UpdateWalletCardsAlreadyConvertedBillingAddresses(
local_profiles, server_id_profiles_map, &guids_merge_map);
if (has_converted_addresses) {
// Save the local profiles to the DB.
SetProfiles(&local_profiles);
}
if (should_update_cards || has_converted_addresses) {
// Update the credit cards billing address relationship.
UpdateCardsBillingAddressReference(guids_merge_map);
// Force a reload of the profiles and cards.
}
}
bool PersonalDataManager::ConvertWalletAddressesToLocalProfiles(
std::vector<AutofillProfile>* local_profiles,
std::unordered_map<std::string, AutofillProfile*>* server_id_profiles_map,
std::unordered_map<std::string, std::string>* guids_merge_map) {
// If the full Sync feature isn't enabled, then do NOT convert any Wallet
// addresses to local ones.
if (!IsSyncFeatureEnabled()) {
return false;
}
bool has_converted_addresses = false;
for (std::unique_ptr<AutofillProfile>& wallet_address : server_profiles_) {
// Add the profile to the map.
server_id_profiles_map->emplace(wallet_address->server_id(),
wallet_address.get());
// If the address has not been converted yet, convert it.
if (!wallet_address->has_converted()) {
// Try to merge the server address into a similar local profile, or create
// a new local profile if no similar profile is found.
// TODO(crbug.com/864519): Use GetAccountInfoForPaymentsServer instead of
// going to IdentityManager directly. This will be necessary to properly
// support Wallet addresses with Butter.
std::string address_guid = MergeServerAddressesIntoProfiles(
*wallet_address, local_profiles, app_locale_,
identity_manager_->GetPrimaryAccountInfo().email);
// Update the map to transfer the billing address relationship from the
// server address to the converted/merged local profile.
guids_merge_map->emplace(wallet_address->server_id(), address_guid);
// Update the wallet addresses metadata to record the conversion.
wallet_address->set_has_converted(true);
database_helper_->GetServerDatabase()->UpdateServerAddressMetadata(
*wallet_address);
has_converted_addresses = true;
}
}
return has_converted_addresses;
}
bool PersonalDataManager::UpdateWalletCardsAlreadyConvertedBillingAddresses(
const std::vector<AutofillProfile>& local_profiles,
const std::unordered_map<std::string, AutofillProfile*>&
server_id_profiles_map,
std::unordered_map<std::string, std::string>* guids_merge_map) const {
// Look for server cards that still refer to server addresses but for which
// there is no mapping. This can happen if it's a new card for which the
// billing address has already been converted. This should be a no-op for most
// situations. Otherwise, it should affect only one Wallet card, sinces users
// do not add a lot of credit cards.
AutofillProfileComparator comparator(app_locale_);
bool should_update_cards = false;
for (const std::unique_ptr<CreditCard>& wallet_card : server_credit_cards_) {
std::string billing_address_id = wallet_card->billing_address_id();
// If billing address refers to a server id and that id is not a key in the
// |guids_merge_map|, it means that the card is new but the address was
// already converted. Look for the matching converted profile.
if (!billing_address_id.empty() &&
billing_address_id.length() != LOCAL_GUID_LENGTH &&
guids_merge_map->find(billing_address_id) == guids_merge_map->end()) {
// Get the profile.
auto it = server_id_profiles_map.find(billing_address_id);
if (it != server_id_profiles_map.end()) {
const AutofillProfile* billing_address = it->second;
// Look for a matching local profile (DO NOT MERGE).
for (const auto& local_profile : local_profiles) {
if (comparator.AreMergeable(*billing_address, local_profile)) {
// The Wallet address matches this local profile. Add this to the
// merge mapping.
guids_merge_map->emplace(billing_address_id, local_profile.guid());
should_update_cards = true;
break;
}
}
}
}
}
return should_update_cards;
}
// TODO(crbug.com/687975): Reuse MergeProfile in this function.
// static
std::string PersonalDataManager::MergeServerAddressesIntoProfiles(
const AutofillProfile& server_address,
std::vector<AutofillProfile>* existing_profiles,
const std::string& app_locale,
const std::string& primary_account_email) {
// If there is already a local profile that is very similar, merge in any
// missing values. Only merge with the first match.
AutofillProfileComparator comparator(app_locale);
for (auto& local_profile : *existing_profiles) {
if (comparator.AreMergeable(server_address, local_profile) &&
local_profile.SaveAdditionalInfo(server_address, app_locale)) {
local_profile.set_modification_date(AutofillClock::Now());
AutofillMetrics::LogWalletAddressConversionType(
AutofillMetrics::CONVERTED_ADDRESS_MERGED);
return local_profile.guid();
}
}
// If the server address was not merged with a local profile, add it to the
// list.
existing_profiles->push_back(server_address);
// Set the profile as being local.
existing_profiles->back().set_record_type(AutofillProfile::LOCAL_PROFILE);
existing_profiles->back().set_modification_date(AutofillClock::Now());
// Wallet addresses don't have an email address, use the one from the
// currently signed-in account.
base::string16 email = base::UTF8ToUTF16(primary_account_email);
if (!email.empty())
existing_profiles->back().SetRawInfo(EMAIL_ADDRESS, email);
AutofillMetrics::LogWalletAddressConversionType(
AutofillMetrics::CONVERTED_ADDRESS_ADDED);
return server_address.guid();
}
bool PersonalDataManager::DeleteDisusedCreditCards() {
if (!base::FeatureList::IsEnabled(
features::kAutofillDeleteDisusedCreditCards)) {
return false;
}
// Only delete local cards, as server cards are managed by Payments.
auto cards = GetLocalCreditCards();
// Early exit when there is no local cards.
if (cards.empty()) {
return true;
}
std::vector<std::string> guid_to_delete;
for (CreditCard* card : cards) {
if (card->IsDeletable()) {
guid_to_delete.push_back(card->guid());
}
}
size_t num_deleted_cards = guid_to_delete.size();
for (auto const guid : guid_to_delete) {
database_helper_->GetLocalDatabase()->RemoveCreditCard(guid);
}
if (num_deleted_cards > 0) {
Refresh();
}
AutofillMetrics::LogNumberOfCreditCardsDeletedForDisuse(num_deleted_cards);
return true;
}
bool PersonalDataManager::DeleteDisusedAddresses() {
if (!base::FeatureList::IsEnabled(
features::kAutofillDeleteDisusedAddresses)) {
DVLOG(1) << "Deletion is disabled";
return false;
}
const std::vector<AutofillProfile*>& profiles = GetProfiles();
// Early exit when there are no profiles.
if (profiles.empty()) {
DVLOG(1) << "There are no profiles";
return true;
}
std::unordered_set<std::string> used_billing_address_guids;
for (CreditCard* card : GetCreditCards()) {
if (!card->IsDeletable()) {
used_billing_address_guids.insert(card->billing_address_id());
}
}
std::vector<std::string> guids_to_delete;
for (AutofillProfile* profile : profiles) {
if (profile->IsDeletable() &&
!used_billing_address_guids.count(profile->guid())) {
guids_to_delete.push_back(profile->guid());
}
}
size_t num_deleted_addresses = guids_to_delete.size();
for (auto const guid : guids_to_delete) {
RemoveAutofillProfileByGUIDAndBlankCreditCardReference(guid);
}
if (num_deleted_addresses > 0) {
Refresh();
}
AutofillMetrics::LogNumberOfAddressesDeletedForDisuse(num_deleted_addresses);
return true;
}
void PersonalDataManager::ApplyAddressFixesAndCleanups() {
// Validate profiles once per major.
UpdateClientValidityStates(GetProfiles());
// One-time fix, otherwise NOP.
RemoveOrphanAutofillTableRows();
// Once per major version, otherwise NOP.
ApplyDedupingRoutine();
DeleteDisusedAddresses();
// If feature AutofillCreateDataForTest is enabled, and once per user profile
// startup.
test_data_creator_.MaybeAddTestProfiles(base::BindRepeating(
&PersonalDataManager::AddProfile, base::Unretained(this)));
// Ran everytime it is called.
ClearProfileNonSettingsOrigins();
// One-time fix, otherwise NOP.
MoveJapanCityToStreetAddress();
}
void PersonalDataManager::ApplyCardFixesAndCleanups() {
DeleteDisusedCreditCards();
// If feature AutofillCreateDataForTest is enabled, and once per user profile
// startup.
test_data_creator_.MaybeAddTestCreditCards(base::BindRepeating(
&PersonalDataManager::AddCreditCard, base::Unretained(this)));
// Ran everytime it is called.
ClearCreditCardNonSettingsOrigins();
}
void PersonalDataManager::ResetProfileValidity() {
synced_profile_validity_.reset();
profiles_server_validities_need_update_ = true;
}
void PersonalDataManager::AddProfileToDB(const AutofillProfile& profile) {
if (profile.IsEmpty(app_locale_)) {
NotifyPersonalDataChanged();
return;
}
if (!ProfileChangesAreOnGoing(profile.guid())) {
if (FindByGUID<AutofillProfile>(web_profiles_, profile.guid()) ||
FindByContents(web_profiles_, profile)) {
NotifyPersonalDataChanged();
return;
}
}
ongoing_profile_changes_[profile.guid()].push_back(
AutofillProfileDeepChange(AutofillProfileChange::ADD, profile));
UpdateClientValidityStates(profile);
}
void PersonalDataManager::UpdateProfileInDB(const AutofillProfile& profile,
bool enforced) {
// if the update is enforced, don't check if a similar profile already exists
// or not. Otherwise, check if updating the profile makes sense.
if (!enforced && !ProfileChangesAreOnGoing(profile.guid())) {
const auto* existing_profile = GetProfileByGUID(profile.guid());
bool profile_exists = (existing_profile != nullptr);
if (!profile_exists || existing_profile->EqualsForUpdatePurposes(profile)) {
NotifyPersonalDataChanged();
return;
}
}
ongoing_profile_changes_[profile.guid()].push_back(
AutofillProfileDeepChange(AutofillProfileChange::UPDATE, profile));
if (enforced)
ongoing_profile_changes_[profile.guid()].back().set_enforce_update();
UpdateClientValidityStates(profile);
}
void PersonalDataManager::RemoveProfileFromDB(const std::string& guid) {
bool profile_exists = FindByGUID<AutofillProfile>(web_profiles_, guid);
if (!profile_exists && !ProfileChangesAreOnGoing(guid)) {
NotifyPersonalDataChanged();
return;
}
AutofillProfileDeepChange change(AutofillProfileChange::REMOVE, guid);
if (!ProfileChangesAreOnGoing(guid)) {
database_helper_->GetLocalDatabase()->RemoveAutofillProfile(guid);
change.set_is_ongoing_on_background();
}
ongoing_profile_changes_[guid].push_back(std::move(change));
}
void PersonalDataManager::HandleNextProfileChange(const std::string& guid) {
if (!ProfileChangesAreOnGoing(guid))
return;
const auto& change = ongoing_profile_changes_[guid].front();
if (change.is_ongoing_on_background())
return;
const auto& change_type = change.type();
const auto* existing_profile = GetProfileByGUID(guid);
const bool profile_exists = (existing_profile != nullptr);
const auto& profile = *(ongoing_profile_changes_[guid].front().profile());
DCHECK(guid == profile.guid());
if (change_type == AutofillProfileChange::REMOVE) {
if (!profile_exists) {
OnProfileChangeDone(guid);
return;
}
database_helper_->GetLocalDatabase()->RemoveAutofillProfile(guid);
change.set_is_ongoing_on_background();
return;
}
if (!change.has_validation_effort_made())
return;
if (change_type == AutofillProfileChange::ADD) {
if (profile_exists || FindByContents(web_profiles_, profile)) {
OnProfileChangeDone(guid);
return;
}
database_helper_->GetLocalDatabase()->AddAutofillProfile(profile);
change.set_is_ongoing_on_background();
return;
}
if (profile_exists && (change.enforce_update() ||
!existing_profile->EqualsForUpdatePurposes(profile))) {
database_helper_->GetLocalDatabase()->UpdateAutofillProfile(profile);
change.set_is_ongoing_on_background();
} else {
OnProfileChangeDone(guid);
}
}
bool PersonalDataManager::ProfileChangesAreOnGoing(const std::string& guid) {
return ongoing_profile_changes_.find(guid) !=
ongoing_profile_changes_.end() &&
!ongoing_profile_changes_[guid].empty();
}
bool PersonalDataManager::ProfileChangesAreOnGoing() {
for (auto task : ongoing_profile_changes_) {
if (ProfileChangesAreOnGoing(task.first)) {
return true;
}
}
return false;
}
void PersonalDataManager::OnProfileChangeDone(const std::string& guid) {
ongoing_profile_changes_[guid].pop_front();
if (!ProfileChangesAreOnGoing()) {
Refresh();
} else {
NotifyPersonalDataChanged();
HandleNextProfileChange(guid);
}
}
void PersonalDataManager::ClearOnGoingProfileChanges() {
ongoing_profile_changes_.clear();
}
} // namespace autofill