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chromium / chromium / src.git / 15.0.869.0 / . / chrome / browser / autofill / personal_data_manager.cc
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// Copyright (c) 2011 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 "chrome/browser/autofill/personal_data_manager.h"
#include <algorithm>
#include <iterator>
#include "base/logging.h"
#include "base/string_number_conversions.h"
#include "base/utf_string_conversions.h"
#include "chrome/browser/autofill/autofill-inl.h"
#include "chrome/browser/autofill/autofill_field.h"
#include "chrome/browser/autofill/autofill_metrics.h"
#include "chrome/browser/autofill/autofill_regexes.h"
#include "chrome/browser/autofill/form_structure.h"
#include "chrome/browser/autofill/personal_data_manager_observer.h"
#include "chrome/browser/autofill/phone_number.h"
#include "chrome/browser/autofill/phone_number_i18n.h"
#include "chrome/browser/autofill/select_control_handler.h"
#include "chrome/browser/prefs/pref_service.h"
#include "chrome/browser/profiles/profile.h"
#include "chrome/browser/sync/profile_sync_service.h"
#include "chrome/browser/webdata/web_data_service.h"
#include "chrome/common/pref_names.h"
#include "content/browser/browser_thread.h"
namespace {
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_;
}
private:
std::string guid_;
};
template<typename T, typename C>
bool FindByGUID(const C& container, const std::string& guid) {
return std::find_if(
container.begin(),
container.end(),
FormGroupMatchesByGUIDFunctor<T>(guid)) != container.end();
}
template<typename T>
class DereferenceFunctor {
public:
template<typename T_Iterator>
const T& operator()(const T_Iterator& iterator) {
return *iterator;
}
};
template<typename T>
T* address_of(T& v) {
return &v;
}
bool IsValidEmail(const string16& value) {
// This regex is more permissive than the official rfc2822 spec on the
// subject, but it does reject obvious non-email addresses.
const string16 kEmailPattern = ASCIIToUTF16("^[^@]+@[^@]+\\.[a-z]{2,6}$");
return autofill::MatchesPattern(value, kEmailPattern);
}
// Valid for US zip codes only.
bool IsValidZip(const string16& value) {
// Basic US zip code matching.
const string16 kZipPattern = ASCIIToUTF16("^\\d{5}(-\\d{4})?$");
return autofill::MatchesPattern(value, kZipPattern);
}
// Returns true if minimum requirements for import of a given |profile| have
// been met. An address submitted via a form must have at least these fields
// filled. No verification of validity of the contents is preformed. This is
// and existence check only.
bool IsMinimumAddress(const AutofillProfile& profile) {
return !profile.GetInfo(ADDRESS_HOME_LINE1).empty() &&
!profile.GetInfo(ADDRESS_HOME_CITY).empty() &&
!profile.GetInfo(ADDRESS_HOME_STATE).empty() &&
!profile.GetInfo(ADDRESS_HOME_ZIP).empty();
}
// Return true if the |field_type| and |value| are valid within the context
// of importing a form.
bool IsValidFieldTypeAndValue(const std::set<AutofillFieldType>& types_seen,
AutofillFieldType field_type,
const string16& value) {
// Abandon the import if two fields of the same type are encountered.
// This indicates ambiguous data or miscategorization of types.
// Make an exception for PHONE_HOME_NUMBER however as both prefix and
// suffix are stored against this type.
if (types_seen.count(field_type) &&
field_type != PHONE_HOME_NUMBER &&
field_type != PHONE_FAX_NUMBER) {
return false;
}
// Abandon the import if an email address value shows up in a field that is
// not an email address.
if (field_type != EMAIL_ADDRESS && IsValidEmail(value))
return false;
return true;
}
} // namespace
PersonalDataManager::~PersonalDataManager() {
CancelPendingQuery(&pending_profiles_query_);
CancelPendingQuery(&pending_creditcards_query_);
}
void PersonalDataManager::OnWebDataServiceRequestDone(
WebDataService::Handle h,
const WDTypedResult* result) {
DCHECK(pending_profiles_query_ || pending_creditcards_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;
return;
}
DCHECK(result->GetType() == AUTOFILL_PROFILES_RESULT ||
result->GetType() == AUTOFILL_CREDITCARDS_RESULT);
switch (result->GetType()) {
case AUTOFILL_PROFILES_RESULT:
ReceiveLoadedProfiles(h, result);
break;
case AUTOFILL_CREDITCARDS_RESULT:
ReceiveLoadedCreditCards(h, result);
break;
default:
NOTREACHED();
}
// If both requests have responded, then all personal data is loaded.
if (pending_profiles_query_ == 0 && pending_creditcards_query_ == 0) {
is_data_loaded_ = true;
std::vector<AutofillProfile*> profile_pointers(web_profiles_.size());
std::copy(web_profiles_.begin(), web_profiles_.end(),
profile_pointers.begin());
AutofillProfile::AdjustInferredLabels(&profile_pointers);
FOR_EACH_OBSERVER(PersonalDataManagerObserver, observers_,
OnPersonalDataChanged());
}
}
void PersonalDataManager::SetObserver(PersonalDataManagerObserver* observer) {
// TODO(dhollowa): RemoveObserver is for compatibility with old code, it
// should be nuked.
observers_.RemoveObserver(observer);
observers_.AddObserver(observer);
}
void PersonalDataManager::RemoveObserver(
PersonalDataManagerObserver* observer) {
observers_.RemoveObserver(observer);
}
// The |PersonalDataManager| is set up as a listener of the sync service in
// |EmptyMigrationTrash| in the case where sync is not yet ready to receive
// changes. This method, |OnStateChange| acts as a deferred call to
// |EmptyMigrationTrash| once the sync service becomes available.
void PersonalDataManager::OnStateChanged() {
if (!profile_ || profile_->IsOffTheRecord())
return;
WebDataService* web_data_service =
profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!web_data_service) {
NOTREACHED();
return;
}
ProfileSyncService* sync_service = profile_->GetProfileSyncService();
if (!sync_service)
return;
if (sync_service->ShouldPushChanges()) {
web_data_service->EmptyMigrationTrash(true);
sync_service->RemoveObserver(this);
}
}
bool PersonalDataManager::ImportFormData(
const FormStructure& form,
const CreditCard** imported_credit_card) {
scoped_ptr<AutofillProfile> imported_profile(new AutofillProfile);
scoped_ptr<CreditCard> local_imported_credit_card(new CreditCard);
// Parse the form and construct a profile based on the information that is
// possible to import.
int importable_credit_card_fields = 0;
std::vector<const FormStructure*>::const_iterator iter;
// Detect and discard forms with multiple fields of the same type.
std::set<AutofillFieldType> types_seen;
// We only set complete phone, so aggregate phone parts in these vars and set
// complete at the end.
PhoneNumber::PhoneCombineHelper home(AutofillType::PHONE_HOME);
PhoneNumber::PhoneCombineHelper fax(AutofillType::PHONE_FAX);
for (size_t i = 0; i < form.field_count(); ++i) {
const AutofillField* field = form.field(i);
string16 value = CollapseWhitespace(field->value, false);
// If we don't know the type of the field, or the user hasn't entered any
// information into the field, then skip it.
if (!field->IsFieldFillable() || value.empty())
continue;
AutofillFieldType field_type = field->type();
FieldTypeGroup group(AutofillType(field_type).group());
// If the |field_type| and |value| don't pass basic validity checks then
// abandon the import.
if (!IsValidFieldTypeAndValue(types_seen, field_type, value)) {
imported_profile.reset();
local_imported_credit_card.reset();
break;
}
types_seen.insert(field_type);
if (group == AutofillType::CREDIT_CARD) {
if (LowerCaseEqualsASCII(field->form_control_type, "month")) {
DCHECK_EQ(CREDIT_CARD_EXP_MONTH, field_type);
local_imported_credit_card->SetInfoForMonthInputType(value);
} else {
local_imported_credit_card->SetCanonicalizedInfo(field_type, value);
}
++importable_credit_card_fields;
} else {
// We need to store phone data in the variables, before building the whole
// number at the end. The rest of the fields are set "as is".
// If the fields are not the phone fields in question both home.SetInfo()
// and fax.SetInfo() are going to return false.
if (!home.SetInfo(field_type, value) && !fax.SetInfo(field_type, value))
imported_profile->SetCanonicalizedInfo(field_type, value);
// Reject profiles with invalid country information.
if (field_type == ADDRESS_HOME_COUNTRY &&
!value.empty() && imported_profile->CountryCode().empty()) {
imported_profile.reset();
break;
}
}
}
// Construct the phone and fax numbers. Reject the profile if either number
// is invalid.
if (imported_profile.get() && !home.IsEmpty()) {
string16 constructed_number;
if (!home.ParseNumber(imported_profile->CountryCode(),
&constructed_number) ||
!imported_profile->SetCanonicalizedInfo(PHONE_HOME_WHOLE_NUMBER,
constructed_number)) {
imported_profile.reset();
}
}
if (imported_profile.get() && !fax.IsEmpty()) {
string16 constructed_number;
if (!fax.ParseNumber(imported_profile->CountryCode(),
&constructed_number) ||
!imported_profile->SetCanonicalizedInfo(PHONE_FAX_WHOLE_NUMBER,
constructed_number)) {
imported_profile.reset();
}
}
// Reject the profile if minimum address and validation requirements are not
// met.
if (imported_profile.get() && !IsValidLearnableProfile(*imported_profile))
imported_profile.reset();
// Reject the credit card if we did not detect enough filled credit card
// fields or if the credit card number does not seem to be valid.
if (local_imported_credit_card.get() &&
!local_imported_credit_card->IsComplete()) {
local_imported_credit_card.reset();
}
// Don't import if we already have this info.
if (local_imported_credit_card.get()) {
for (std::vector<CreditCard*>::const_iterator iter = credit_cards_.begin();
iter != credit_cards_.end();
++iter) {
if (local_imported_credit_card->IsSubsetOf(**iter)) {
local_imported_credit_card.reset();
break;
}
}
}
if (imported_profile.get()) {
// We always save imported profiles.
SaveImportedProfile(*imported_profile);
}
*imported_credit_card = local_imported_credit_card.release();
if (imported_profile.get() || *imported_credit_card) {
return true;
} else {
FOR_EACH_OBSERVER(PersonalDataManagerObserver, observers_,
OnInsufficientFormData());
return false;
}
}
void PersonalDataManager::AddProfile(const AutofillProfile& profile) {
if (profile_->IsOffTheRecord())
return;
if (profile.IsEmpty())
return;
// Don't add an existing profile.
if (FindByGUID<AutofillProfile>(web_profiles_, profile.guid()))
return;
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Don't add a duplicate.
if (FindByContents(web_profiles_, profile))
return;
// Add the new profile to the web database.
wds->AddAutofillProfile(profile);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::UpdateProfile(const AutofillProfile& profile) {
if (profile_->IsOffTheRecord())
return;
if (!FindByGUID<AutofillProfile>(web_profiles_, profile.guid()))
return;
if (profile.IsEmpty()) {
RemoveProfile(profile.guid());
return;
}
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Make the update.
wds->UpdateAutofillProfile(profile);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::RemoveProfile(const std::string& guid) {
if (profile_->IsOffTheRecord())
return;
if (!FindByGUID<AutofillProfile>(web_profiles_, guid))
return;
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Remove the profile.
wds->RemoveAutofillProfile(guid);
// Refresh our local cache and send notifications to observers.
Refresh();
}
AutofillProfile* PersonalDataManager::GetProfileByGUID(
const std::string& guid) {
for (std::vector<AutofillProfile*>::iterator iter = web_profiles_->begin();
iter != web_profiles_->end(); ++iter) {
if ((*iter)->guid() == guid)
return *iter;
}
return NULL;
}
void PersonalDataManager::AddCreditCard(const CreditCard& credit_card) {
if (profile_->IsOffTheRecord())
return;
if (credit_card.IsEmpty())
return;
if (FindByGUID<CreditCard>(credit_cards_, credit_card.guid()))
return;
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Don't add a duplicate.
if (FindByContents(credit_cards_, credit_card))
return;
// Add the new credit card to the web database.
wds->AddCreditCard(credit_card);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::UpdateCreditCard(const CreditCard& credit_card) {
if (profile_->IsOffTheRecord())
return;
if (!FindByGUID<CreditCard>(credit_cards_, credit_card.guid()))
return;
if (credit_card.IsEmpty()) {
RemoveCreditCard(credit_card.guid());
return;
}
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Make the update.
wds->UpdateCreditCard(credit_card);
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::RemoveCreditCard(const std::string& guid) {
if (profile_->IsOffTheRecord())
return;
if (!FindByGUID<CreditCard>(credit_cards_, guid))
return;
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Remove the credit card.
wds->RemoveCreditCard(guid);
// Refresh our local cache and send notifications to observers.
Refresh();
}
CreditCard* PersonalDataManager::GetCreditCardByGUID(const std::string& guid) {
for (std::vector<CreditCard*>::iterator iter = credit_cards_.begin();
iter != credit_cards_.end(); ++iter) {
if ((*iter)->guid() == guid)
return *iter;
}
return NULL;
}
void PersonalDataManager::GetNonEmptyTypes(
FieldTypeSet* non_empty_types) const {
const std::vector<AutofillProfile*>& profiles = this->profiles();
for (std::vector<AutofillProfile*>::const_iterator iter = profiles.begin();
iter != profiles.end(); ++iter) {
(*iter)->GetNonEmptyTypes(non_empty_types);
}
for (ScopedVector<CreditCard>::const_iterator iter = credit_cards_.begin();
iter != credit_cards_.end(); ++iter) {
(*iter)->GetNonEmptyTypes(non_empty_types);
}
}
bool PersonalDataManager::IsDataLoaded() const {
return is_data_loaded_;
}
const std::vector<AutofillProfile*>& PersonalDataManager::profiles() const {
// |profile_| is NULL in AutofillManagerTest.
bool auxiliary_profiles_enabled = profile_ ? profile_->GetPrefs()->GetBoolean(
prefs::kAutofillAuxiliaryProfilesEnabled) : false;
if (!auxiliary_profiles_enabled)
return web_profiles();
#if !defined(OS_MACOSX)
NOTREACHED() << "Auxiliary profiles supported on Mac only";
#endif
profiles_.clear();
// Populates |auxiliary_profiles_|.
LoadAuxiliaryProfiles();
profiles_.insert(profiles_.end(), web_profiles_.begin(), web_profiles_.end());
profiles_.insert(profiles_.end(),
auxiliary_profiles_.begin(), auxiliary_profiles_.end());
return profiles_;
}
const std::vector<AutofillProfile*>& PersonalDataManager::web_profiles() const {
return web_profiles_.get();
}
const std::vector<CreditCard*>& PersonalDataManager::credit_cards() const {
return credit_cards_.get();
}
void PersonalDataManager::Refresh() {
LoadProfiles();
LoadCreditCards();
}
PersonalDataManager::PersonalDataManager()
: profile_(NULL),
is_data_loaded_(false),
pending_profiles_query_(0),
pending_creditcards_query_(0),
metric_logger_(new AutofillMetrics),
has_logged_profile_count_(false) {
}
void PersonalDataManager::Init(Profile* profile) {
profile_ = profile;
metric_logger_->LogIsAutofillEnabledAtStartup(IsAutofillEnabled());
LoadProfiles();
LoadCreditCards();
}
bool PersonalDataManager::IsAutofillEnabled() const {
return profile_->GetPrefs()->GetBoolean(prefs::kAutofillEnabled);
}
// static
bool PersonalDataManager::IsValidLearnableProfile(
const AutofillProfile& profile) {
if (!IsMinimumAddress(profile))
return false;
string16 email = profile.GetInfo(EMAIL_ADDRESS);
if (!email.empty() && !IsValidEmail(email))
return false;
// Reject profiles with invalid US state information.
string16 state = profile.GetInfo(ADDRESS_HOME_STATE);
if (profile.CountryCode() == "US" &&
!state.empty() && !autofill::IsValidState(state)) {
return false;
}
// Reject profiles with invalid US zip information.
string16 zip = profile.GetInfo(ADDRESS_HOME_ZIP);
if (profile.CountryCode() == "US" && !zip.empty() && !IsValidZip(zip))
return false;
return true;
}
// static
bool PersonalDataManager::MergeProfile(
const AutofillProfile& profile,
const std::vector<AutofillProfile*>& existing_profiles,
std::vector<AutofillProfile>* merged_profiles) {
DCHECK(merged_profiles);
merged_profiles->clear();
// Set to true if |profile| is merged into |existing_profiles|.
bool merged = false;
// First preference is to add missing values to an existing profile.
// Only merge with the first match.
for (std::vector<AutofillProfile*>::const_iterator iter =
existing_profiles.begin();
iter != existing_profiles.end(); ++iter) {
if (!merged) {
if (profile.IsSubsetOf(**iter)) {
// In this case, the existing profile already contains all of the data
// in |profile|, so consider the profiles already merged.
merged = true;
} else if ((*iter)->IntersectionOfTypesHasEqualValues(profile)) {
// |profile| contains all of the data in this profile, plus more.
merged = true;
(*iter)->MergeWith(profile);
}
}
merged_profiles->push_back(**iter);
}
// The second preference, if not merged above, is to alter non-primary values
// where the primary values match.
// Again, only merge with the first match.
if (!merged) {
merged_profiles->clear();
for (std::vector<AutofillProfile*>::const_iterator iter =
existing_profiles.begin();
iter != existing_profiles.end(); ++iter) {
if (!merged) {
if (!profile.PrimaryValue().empty() &&
StringToLowerASCII((*iter)->PrimaryValue()) ==
StringToLowerASCII(profile.PrimaryValue())) {
merged = true;
(*iter)->OverwriteWithOrAddTo(profile);
}
}
merged_profiles->push_back(**iter);
}
}
// Finally, if the new profile was not merged with an existing profile then
// add the new profile to the list.
if (!merged)
merged_profiles->push_back(profile);
return merged;
}
void PersonalDataManager::SetProfiles(std::vector<AutofillProfile>* profiles) {
if (profile_->IsOffTheRecord())
return;
// Remove empty profiles from input.
profiles->erase(
std::remove_if(profiles->begin(), profiles->end(),
std::mem_fun_ref(&AutofillProfile::IsEmpty)),
profiles->end());
// Ensure that profile labels are up to date. Currently, sync relies on
// labels to identify a profile.
// TODO(dhollowa): We need to deprecate labels and update the way sync
// identifies profiles.
std::vector<AutofillProfile*> profile_pointers(profiles->size());
std::transform(profiles->begin(), profiles->end(), profile_pointers.begin(),
address_of<AutofillProfile>);
AutofillProfile::AdjustInferredLabels(&profile_pointers);
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Any profiles that are not in the new profile list should be removed from
// the web database.
for (std::vector<AutofillProfile*>::const_iterator iter =
web_profiles_.begin();
iter != web_profiles_.end(); ++iter) {
if (!FindByGUID<AutofillProfile>(*profiles, (*iter)->guid()))
wds->RemoveAutofillProfile((*iter)->guid());
}
// Update the web database with the existing profiles.
for (std::vector<AutofillProfile>::iterator iter = profiles->begin();
iter != profiles->end(); ++iter) {
if (FindByGUID<AutofillProfile>(web_profiles_, iter->guid()))
wds->UpdateAutofillProfile(*iter);
}
// Add the new profiles to the web database. Don't add a duplicate.
for (std::vector<AutofillProfile>::iterator iter = profiles->begin();
iter != profiles->end(); ++iter) {
if (!FindByGUID<AutofillProfile>(web_profiles_, iter->guid()) &&
!FindByContents(web_profiles_, *iter))
wds->AddAutofillProfile(*iter);
}
// Copy in the new profiles.
web_profiles_.reset();
for (std::vector<AutofillProfile>::iterator iter = profiles->begin();
iter != profiles->end(); ++iter) {
web_profiles_.push_back(new AutofillProfile(*iter));
}
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::SetCreditCards(
std::vector<CreditCard>* credit_cards) {
if (profile_->IsOffTheRecord())
return;
// Remove empty credit cards from input.
credit_cards->erase(
std::remove_if(
credit_cards->begin(), credit_cards->end(),
std::mem_fun_ref(&CreditCard::IsEmpty)),
credit_cards->end());
WebDataService* wds = profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!wds)
return;
// Any credit cards that are not in the new credit card list should be
// removed.
for (std::vector<CreditCard*>::const_iterator iter = credit_cards_.begin();
iter != credit_cards_.end(); ++iter) {
if (!FindByGUID<CreditCard>(*credit_cards, (*iter)->guid()))
wds->RemoveCreditCard((*iter)->guid());
}
// Update the web database with the existing credit cards.
for (std::vector<CreditCard>::iterator iter = credit_cards->begin();
iter != credit_cards->end(); ++iter) {
if (FindByGUID<CreditCard>(credit_cards_, iter->guid()))
wds->UpdateCreditCard(*iter);
}
// Add the new credit cards to the web database. Don't add a duplicate.
for (std::vector<CreditCard>::iterator iter = credit_cards->begin();
iter != credit_cards->end(); ++iter) {
if (!FindByGUID<CreditCard>(credit_cards_, iter->guid()) &&
!FindByContents(credit_cards_, *iter))
wds->AddCreditCard(*iter);
}
// Copy in the new credit cards.
credit_cards_.reset();
for (std::vector<CreditCard>::iterator iter = credit_cards->begin();
iter != credit_cards->end(); ++iter) {
credit_cards_.push_back(new CreditCard(*iter));
}
// Refresh our local cache and send notifications to observers.
Refresh();
}
void PersonalDataManager::LoadProfiles() {
WebDataService* web_data_service =
profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!web_data_service) {
NOTREACHED();
return;
}
CancelPendingQuery(&pending_profiles_query_);
pending_profiles_query_ = web_data_service->GetAutofillProfiles(this);
}
// Win and Linux implementations do nothing. Mac implementation fills in the
// contents of |auxiliary_profiles_|.
#if !defined(OS_MACOSX)
void PersonalDataManager::LoadAuxiliaryProfiles() const {
}
#endif
void PersonalDataManager::LoadCreditCards() {
WebDataService* web_data_service =
profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!web_data_service) {
NOTREACHED();
return;
}
CancelPendingQuery(&pending_creditcards_query_);
pending_creditcards_query_ = web_data_service->GetCreditCards(this);
}
void PersonalDataManager::ReceiveLoadedProfiles(WebDataService::Handle h,
const WDTypedResult* result) {
DCHECK_EQ(pending_profiles_query_, h);
pending_profiles_query_ = 0;
web_profiles_.reset();
const WDResult<std::vector<AutofillProfile*> >* r =
static_cast<const WDResult<std::vector<AutofillProfile*> >*>(result);
std::vector<AutofillProfile*> profiles = r->GetValue();
for (std::vector<AutofillProfile*>::iterator iter = profiles.begin();
iter != profiles.end(); ++iter) {
web_profiles_.push_back(*iter);
}
LogProfileCount();
EmptyMigrationTrash();
}
void PersonalDataManager::ReceiveLoadedCreditCards(
WebDataService::Handle h, const WDTypedResult* result) {
DCHECK_EQ(pending_creditcards_query_, h);
pending_creditcards_query_ = 0;
credit_cards_.reset();
const WDResult<std::vector<CreditCard*> >* r =
static_cast<const WDResult<std::vector<CreditCard*> >*>(result);
std::vector<CreditCard*> credit_cards = r->GetValue();
for (std::vector<CreditCard*>::iterator iter = credit_cards.begin();
iter != credit_cards.end(); ++iter) {
credit_cards_.push_back(*iter);
}
}
void PersonalDataManager::CancelPendingQuery(WebDataService::Handle* handle) {
if (*handle) {
WebDataService* web_data_service =
profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!web_data_service) {
NOTREACHED();
return;
}
web_data_service->CancelRequest(*handle);
}
*handle = 0;
}
void PersonalDataManager::SaveImportedProfile(
const AutofillProfile& imported_profile) {
if (profile_->IsOffTheRecord())
return;
// Don't save a web profile if the data in the profile is a subset of an
// auxiliary profile.
for (std::vector<AutofillProfile*>::const_iterator iter =
auxiliary_profiles_.begin();
iter != auxiliary_profiles_.end(); ++iter) {
if (imported_profile.IsSubsetOf(**iter))
return;
}
std::vector<AutofillProfile> profiles;
MergeProfile(imported_profile, web_profiles_.get(), &profiles);
SetProfiles(&profiles);
}
void PersonalDataManager::SaveImportedCreditCard(
const CreditCard& imported_credit_card) {
if (profile_->IsOffTheRecord())
return;
// Set to true if |imported_credit_card| is merged into the credit card list.
bool merged = false;
std::vector<CreditCard> creditcards;
for (std::vector<CreditCard*>::const_iterator iter = credit_cards_.begin();
iter != credit_cards_.end();
++iter) {
if (imported_credit_card.IsSubsetOf(**iter)) {
// In this case, the existing credit card already contains all of the data
// in |imported_credit_card|, so consider the credit cards already
// merged.
merged = true;
} else if ((*iter)->IntersectionOfTypesHasEqualValues(
imported_credit_card)) {
// |imported_credit_card| contains all of the data in this credit card,
// plus more.
merged = true;
(*iter)->MergeWith(imported_credit_card);
} else if (!imported_credit_card.number().empty() &&
(*iter)->number() == imported_credit_card.number()) {
merged = true;
(*iter)->OverwriteWith(imported_credit_card);
}
creditcards.push_back(**iter);
}
if (!merged)
creditcards.push_back(imported_credit_card);
SetCreditCards(&creditcards);
}
void PersonalDataManager::EmptyMigrationTrash() {
if (!profile_ || profile_->IsOffTheRecord())
return;
WebDataService* web_data_service =
profile_->GetWebDataService(Profile::EXPLICIT_ACCESS);
if (!web_data_service) {
NOTREACHED();
return;
}
ProfileSyncService* sync_service = profile_->GetProfileSyncService();
if (!sync_service)
return;
if (!sync_service->HasSyncSetupCompleted()) {
web_data_service->EmptyMigrationTrash(false);
} else if (sync_service->ShouldPushChanges()) {
web_data_service->EmptyMigrationTrash(true);
} else {
// Install ourself as a listener so we can empty the trash once the
// sync service becomes available.
if (!sync_service->HasObserver(this))
sync_service->AddObserver(this);
}
}
void PersonalDataManager::LogProfileCount() const {
if (!has_logged_profile_count_) {
metric_logger_->LogStoredProfileCount(web_profiles_.size());
has_logged_profile_count_ = true;
}
}
const AutofillMetrics* PersonalDataManager::metric_logger() const {
return metric_logger_.get();
}
void PersonalDataManager::set_metric_logger(
const AutofillMetrics* metric_logger) {
metric_logger_.reset(metric_logger);
}