chrome/browser/sync/profile_sync_service_harness.cc - platform/external/chromium - Git at Google

 // 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/sync/profile_sync_service_harness.h"

 #include <stddef.h>
 #include <algorithm>
 #include <iterator>
 #include <ostream>
 #include <set>
 #include <vector>

 #include "base/logging.h"
 #include "base/memory/ref_counted.h"
 #include "base/message_loop.h"
 #include "base/task.h"
 #include "base/tracked.h"
 #include "chrome/browser/profiles/profile.h"
 #include "chrome/browser/sync/sessions/session_state.h"
 #include "chrome/browser/sync/signin_manager.h"

 using browser_sync::sessions::SyncSessionSnapshot;

 // The amount of time for which we wait for a live sync operation to complete.
 static const int kLiveSyncOperationTimeoutMs = 45000;

 // Simple class to implement a timeout using PostDelayedTask.  If it is not
 // aborted before picked up by a message queue, then it asserts with the message
 // provided.  This class is not thread safe.
 class StateChangeTimeoutEvent
     : public base::RefCountedThreadSafe<StateChangeTimeoutEvent> {
  public:
   StateChangeTimeoutEvent(ProfileSyncServiceHarness* caller,
                           const std::string& message);

   // The entry point to the class from PostDelayedTask.
   void Callback();

   // Cancels the actions of the callback.  Returns true if success, false
   // if the callback has already timed out.
   bool Abort();

  private:
   friend class base::RefCountedThreadSafe<StateChangeTimeoutEvent>;

   ~StateChangeTimeoutEvent();

   bool aborted_;
   bool did_timeout_;

   // Due to synchronization of the IO loop, the caller will always be alive
   // if the class is not aborted.
   ProfileSyncServiceHarness* caller_;

   // Informative message to assert in the case of a timeout.
   std::string message_;

   DISALLOW_COPY_AND_ASSIGN(StateChangeTimeoutEvent);
 };

 StateChangeTimeoutEvent::StateChangeTimeoutEvent(
     ProfileSyncServiceHarness* caller,
     const std::string& message)
     : aborted_(false), did_timeout_(false), caller_(caller), message_(message) {
 }

 StateChangeTimeoutEvent::~StateChangeTimeoutEvent() {
 }

 void StateChangeTimeoutEvent::Callback() {
   if (!aborted_) {
     if (!caller_->RunStateChangeMachine()) {
       // Report the message.
       did_timeout_ = true;
       DCHECK(!aborted_) << message_;
       caller_->SignalStateComplete();
     }
   }
 }

 bool StateChangeTimeoutEvent::Abort() {
   aborted_ = true;
   caller_ = NULL;
   return !did_timeout_;
 }

 ProfileSyncServiceHarness::ProfileSyncServiceHarness(
     Profile* profile,
     const std::string& username,
     const std::string& password,
     int id)
     : waiting_for_encryption_type_(syncable::UNSPECIFIED),
       wait_state_(INITIAL_WAIT_STATE),
       profile_(profile),
       service_(NULL),
       timestamp_match_partner_(NULL),
       username_(username),
       password_(password),
       id_(id) {
   if (IsSyncAlreadySetup()) {
     service_ = profile_->GetProfileSyncService();
     service_->AddObserver(this);
     wait_state_ = FULLY_SYNCED;
   }
 }

 // static
 ProfileSyncServiceHarness* ProfileSyncServiceHarness::CreateAndAttach(
     Profile* profile) {
   if (!profile->HasProfileSyncService()) {
     NOTREACHED() << "Profile has never signed into sync.";
     return NULL;
   }
   return new ProfileSyncServiceHarness(profile, "", "", 0);
 }

 void ProfileSyncServiceHarness::SetCredentials(const std::string& username,
                                                const std::string& password) {
   username_ = username;
   password_ = password;
 }

 bool ProfileSyncServiceHarness::IsSyncAlreadySetup() {
   return profile_->HasProfileSyncService();
 }

 bool ProfileSyncServiceHarness::SetupSync() {
   syncable::ModelTypeSet synced_datatypes;
   for (int i = syncable::FIRST_REAL_MODEL_TYPE;
       i < syncable::MODEL_TYPE_COUNT; ++i) {
     synced_datatypes.insert(syncable::ModelTypeFromInt(i));
   }
   return SetupSync(synced_datatypes);
 }

 bool ProfileSyncServiceHarness::SetupSync(
     const syncable::ModelTypeSet& synced_datatypes) {
   // Initialize the sync client's profile sync service object.
   service_ = profile_->GetProfileSyncService("");
   if (service_ == NULL) {
     LOG(ERROR) << "SetupSync(): service_ is null.";
     return false;
   }

   // Subscribe sync client to notifications from the profile sync service.
   if (!service_->HasObserver(this))
     service_->AddObserver(this);

   // Authenticate sync client using GAIA credentials.
   service_->signin()->StartSignIn(username_, password_, "", "");

   // Wait for the OnBackendInitialized() callback.
   wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
   if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
       "Waiting for OnBackendInitialized().")) {
     LOG(ERROR) << "OnBackendInitialized() not seen after "
                << kLiveSyncOperationTimeoutMs / 1000
                << " seconds.";
     return false;
   }

   // Choose the datatypes to be synced. If all datatypes are to be synced,
   // set sync_everything to true; otherwise, set it to false.
   bool sync_everything = (synced_datatypes.size() ==
       (syncable::MODEL_TYPE_COUNT - syncable::FIRST_REAL_MODEL_TYPE));
   service()->OnUserChoseDatatypes(sync_everything, synced_datatypes);

   // Wait for initial sync cycle to be completed.
   DCHECK_EQ(wait_state_, WAITING_FOR_INITIAL_SYNC);
   if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
       "Waiting for initial sync cycle to complete.")) {
     LOG(ERROR) << "Initial sync cycle did not complete after "
                << kLiveSyncOperationTimeoutMs / 1000
                << " seconds.";
     return false;
   }

   // Indicate to the browser that sync setup is complete.
   service()->SetSyncSetupCompleted();

   return true;
 }

 void ProfileSyncServiceHarness::SignalStateCompleteWithNextState(
     WaitState next_state) {
   wait_state_ = next_state;
   SignalStateComplete();
 }

 void ProfileSyncServiceHarness::SignalStateComplete() {
   MessageLoop::current()->Quit();
 }

 bool ProfileSyncServiceHarness::RunStateChangeMachine() {
   WaitState original_wait_state = wait_state_;
   switch (wait_state_) {
     case WAITING_FOR_ON_BACKEND_INITIALIZED: {
       LogClientInfo("WAITING_FOR_ON_BACKEND_INITIALIZED");
       if (service()->sync_initialized()) {
         // The sync backend is initialized.
         SignalStateCompleteWithNextState(WAITING_FOR_INITIAL_SYNC);
       }
       break;
     }
     case WAITING_FOR_INITIAL_SYNC: {
       LogClientInfo("WAITING_FOR_INITIAL_SYNC");
       if (IsSynced()) {
         // The first sync cycle is now complete. We can start running tests.
         SignalStateCompleteWithNextState(FULLY_SYNCED);
       }
       break;
     }
     case WAITING_FOR_SYNC_TO_FINISH: {
       LogClientInfo("WAITING_FOR_SYNC_TO_FINISH");
       if (!IsSynced()) {
         // The client is not yet fully synced. Continue waiting.
         if (!GetStatus().server_reachable) {
           // The client cannot reach the sync server because the network is
           // disabled. There is no need to wait anymore.
           SignalStateCompleteWithNextState(SERVER_UNREACHABLE);
         }
         break;
       }
       SignalStateCompleteWithNextState(FULLY_SYNCED);
       break;
     }
     case WAITING_FOR_UPDATES: {
       LogClientInfo("WAITING_FOR_UPDATES");
       DCHECK(timestamp_match_partner_);
       if (!MatchesOtherClient(timestamp_match_partner_)) {
         // The client is not yet fully synced; keep waiting until we converge.
         break;
       }
       timestamp_match_partner_->service()->RemoveObserver(this);
       timestamp_match_partner_ = NULL;

       SignalStateCompleteWithNextState(FULLY_SYNCED);
       break;
     }
     case WAITING_FOR_PASSPHRASE_ACCEPTED: {
       LogClientInfo("WAITING_FOR_PASSPHRASE_ACCEPTED");
       // TODO(atwilson): After ProfileSyncService::OnPassphraseAccepted() is
       // fixed, add an extra check to make sure that the value of
       // service()->observed_passphrase_required() is false.
       if (service()->ShouldPushChanges()) {
         // The passphrase has been accepted, and sync has been restarted.
         SignalStateCompleteWithNextState(FULLY_SYNCED);
       }
       break;
     }
     case WAITING_FOR_ENCRYPTION: {
       LogClientInfo("WAITING_FOR_ENCRYPTION");
       if (IsTypeEncrypted(waiting_for_encryption_type_)) {
         // Encryption is complete for the type we are waiting on.
         SignalStateCompleteWithNextState(FULLY_SYNCED);
       }
       break;
     }
     case SERVER_UNREACHABLE: {
       LogClientInfo("SERVER_UNREACHABLE");
       if (GetStatus().server_reachable) {
         // The client was offline due to the network being disabled, but is now
         // back online. Wait for the pending sync cycle to complete.
         SignalStateCompleteWithNextState(WAITING_FOR_SYNC_TO_FINISH);
       }
       break;
     }
     case FULLY_SYNCED: {
       // The client is online and fully synced. There is nothing to do.
       LogClientInfo("FULLY_SYNCED");
       break;
     }
     case SYNC_DISABLED: {
       // Syncing is disabled for the client. There is nothing to do.
       LogClientInfo("SYNC_DISABLED");
       break;
     }
     default:
       // Invalid state during observer callback which may be triggered by other
       // classes using the the UI message loop.  Defer to their handling.
       break;
   }
   return original_wait_state != wait_state_;
 }

 void ProfileSyncServiceHarness::OnStateChanged() {
   RunStateChangeMachine();
 }

 bool ProfileSyncServiceHarness::AwaitPassphraseAccepted() {
   LogClientInfo("AwaitPassphraseAccepted");
   if (wait_state_ == SYNC_DISABLED) {
     LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
     return false;
   }

   // TODO(atwilson): After ProfileSyncService::OnPassphraseAccepted() is
   // fixed, add an extra check to make sure that the value of
   // service()->observed_passphrase_required() is false.
   if (service()->ShouldPushChanges()) {
     // Passphrase is already accepted; don't wait.
     return true;
   }

   wait_state_ = WAITING_FOR_PASSPHRASE_ACCEPTED;
   return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
                                       "Waiting for passphrase accepted.");
 }

 bool ProfileSyncServiceHarness::AwaitSyncCycleCompletion(
     const std::string& reason) {
   LogClientInfo("AwaitSyncCycleCompletion");
   if (wait_state_ == SYNC_DISABLED) {
     LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
     return false;
   }

   if (IsSynced()) {
     // Client is already synced; don't wait.
     return true;
   }

   if (wait_state_ == SERVER_UNREACHABLE) {
     // Client was offline; wait for it to go online, and then wait for sync.
     AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
     DCHECK_EQ(wait_state_, WAITING_FOR_SYNC_TO_FINISH);
     return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
   } else {
     DCHECK(service()->sync_initialized());
     wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
     AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
     if (wait_state_ == FULLY_SYNCED) {
       // Client is online; sync was successful.
       return true;
     } else if (wait_state_ == SERVER_UNREACHABLE) {
       // Client is offline; sync was unsuccessful.
       return false;
     } else {
       LOG(ERROR) << "Invalid wait state:" << wait_state_;
       return false;
     }
   }
 }

 bool ProfileSyncServiceHarness::AwaitMutualSyncCycleCompletion(
     ProfileSyncServiceHarness* partner) {
   LogClientInfo("AwaitMutualSyncCycleCompletion");
   if (!AwaitSyncCycleCompletion("Sync cycle completion on active client."))
     return false;
   return partner->WaitUntilTimestampMatches(this,
       "Sync cycle completion on passive client.");
 }

 bool ProfileSyncServiceHarness::AwaitGroupSyncCycleCompletion(
     std::vector<ProfileSyncServiceHarness*>& partners) {
   LogClientInfo("AwaitGroupSyncCycleCompletion");
   if (!AwaitSyncCycleCompletion("Sync cycle completion on active client."))
     return false;
   bool return_value = true;
   for (std::vector<ProfileSyncServiceHarness*>::iterator it =
       partners.begin(); it != partners.end(); ++it) {
     if ((this != *it) && ((*it)->wait_state_ != SYNC_DISABLED)) {
       return_value = return_value &&
           (*it)->WaitUntilTimestampMatches(this,
           "Sync cycle completion on partner client.");
     }
   }
   return return_value;
 }

 // static
 bool ProfileSyncServiceHarness::AwaitQuiescence(
     std::vector<ProfileSyncServiceHarness*>& clients) {
   VLOG(1) << "AwaitQuiescence.";
   bool return_value = true;
   for (std::vector<ProfileSyncServiceHarness*>::iterator it =
       clients.begin(); it != clients.end(); ++it) {
     if ((*it)->wait_state_ != SYNC_DISABLED)
       return_value = return_value &&
           (*it)->AwaitGroupSyncCycleCompletion(clients);
   }
   return return_value;
 }

 bool ProfileSyncServiceHarness::WaitUntilTimestampMatches(
     ProfileSyncServiceHarness* partner, const std::string& reason) {
   LogClientInfo("WaitUntilTimestampMatches");
   if (wait_state_ == SYNC_DISABLED) {
     LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
     return false;
   }

   if (MatchesOtherClient(partner)) {
     // Timestamps already match; don't wait.
     return true;
   }

   DCHECK(!timestamp_match_partner_);
   timestamp_match_partner_ = partner;
   partner->service()->AddObserver(this);
   wait_state_ = WAITING_FOR_UPDATES;
   return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
 }

 bool ProfileSyncServiceHarness::AwaitStatusChangeWithTimeout(
     int timeout_milliseconds,
     const std::string& reason) {
   LogClientInfo("AwaitStatusChangeWithTimeout");
   if (wait_state_ == SYNC_DISABLED) {
     LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
     return false;
   }
   scoped_refptr<StateChangeTimeoutEvent> timeout_signal(
       new StateChangeTimeoutEvent(this, reason));
   MessageLoop* loop = MessageLoop::current();
   bool did_allow_nestable_tasks = loop->NestableTasksAllowed();
   loop->SetNestableTasksAllowed(true);
   loop->PostDelayedTask(
       FROM_HERE,
       NewRunnableMethod(timeout_signal.get(),
                         &StateChangeTimeoutEvent::Callback),
       timeout_milliseconds);
   loop->Run();
   loop->SetNestableTasksAllowed(did_allow_nestable_tasks);
   if (timeout_signal->Abort()) {
     LogClientInfo("AwaitStatusChangeWithTimeout succeeded");
     return true;
   } else {
     LogClientInfo("AwaitStatusChangeWithTimeout timed out");
     return false;
   }
 }

 ProfileSyncService::Status ProfileSyncServiceHarness::GetStatus() {
   DCHECK(service() != NULL) << "GetStatus(): service() is NULL.";
   return service()->QueryDetailedSyncStatus();
 }

 bool ProfileSyncServiceHarness::IsSynced() {
   LogClientInfo("IsSynced");
   if (service() == NULL)
     return false;
   const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
   // TODO(rsimha): Remove additional checks of snap->has_more_to_sync and
   // snap->unsynced_count once http://crbug.com/48989 is fixed.
   return (snap &&
           snap->num_conflicting_updates == 0 &&  // We can decrypt everything.
           ServiceIsPushingChanges() &&
           GetStatus().notifications_enabled &&
           !service()->HasUnsyncedItems() &&
           !snap->has_more_to_sync &&
           snap->unsynced_count == 0);
 }

 bool ProfileSyncServiceHarness::MatchesOtherClient(
     ProfileSyncServiceHarness* partner) {
   if (!IsSynced())
     return false;

   // Only look for a match if we have at least one enabled datatype in
   // common with the partner client.
   syncable::ModelTypeSet types, other_types, intersection_types;
   service()->GetPreferredDataTypes(&types);
   partner->service()->GetPreferredDataTypes(&other_types);
   std::set_intersection(types.begin(), types.end(), other_types.begin(),
                         other_types.end(),
                         inserter(intersection_types,
                                  intersection_types.begin()));
   for (syncable::ModelTypeSet::iterator i = intersection_types.begin();
        i != intersection_types.end();
        ++i) {
     if (!partner->IsSynced() ||
         partner->GetUpdatedTimestamp(*i) != GetUpdatedTimestamp(*i)) {
       return false;
     }
   }
   return true;
 }

 const SyncSessionSnapshot*
     ProfileSyncServiceHarness::GetLastSessionSnapshot() const {
   DCHECK(service_ != NULL) << "Sync service has not yet been set up.";
   if (service_->sync_initialized()) {
     return service_->GetLastSessionSnapshot();
   }
   return NULL;
 }

 void ProfileSyncServiceHarness::EnableSyncForDatatype(
     syncable::ModelType datatype) {
   LogClientInfo("EnableSyncForDatatype");
   syncable::ModelTypeSet synced_datatypes;
   if (wait_state_ == SYNC_DISABLED) {
     wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
     synced_datatypes.insert(datatype);
     DCHECK(SetupSync(synced_datatypes)) << "Reinitialization of Client " << id_
                                         << " failed.";
   } else {
     DCHECK(service() != NULL) << "EnableSyncForDatatype(): service() is null.";
     service()->GetPreferredDataTypes(&synced_datatypes);
     syncable::ModelTypeSet::iterator it = synced_datatypes.find(
         syncable::ModelTypeFromInt(datatype));
     if (it == synced_datatypes.end()) {
       synced_datatypes.insert(syncable::ModelTypeFromInt(datatype));
       service()->OnUserChoseDatatypes(false, synced_datatypes);
       wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
       AwaitSyncCycleCompletion("Waiting for datatype configuration.");
       VLOG(1) << "EnableSyncForDatatype(): Enabled sync for datatype "
               << syncable::ModelTypeToString(datatype) << " on Client " << id_;
     } else {
       VLOG(1) << "EnableSyncForDatatype(): Sync already enabled for datatype "
               << syncable::ModelTypeToString(datatype) << " on Client " << id_;
     }
   }
 }

 void ProfileSyncServiceHarness::DisableSyncForDatatype(
     syncable::ModelType datatype) {
   LogClientInfo("DisableSyncForDatatype");
   syncable::ModelTypeSet synced_datatypes;
   DCHECK(service() != NULL) << "DisableSyncForDatatype(): service() is null.";
   service()->GetPreferredDataTypes(&synced_datatypes);
   syncable::ModelTypeSet::iterator it = synced_datatypes.find(datatype);
   if (it != synced_datatypes.end()) {
     synced_datatypes.erase(it);
     service()->OnUserChoseDatatypes(false, synced_datatypes);
     AwaitSyncCycleCompletion("Waiting for datatype configuration.");
     VLOG(1) << "DisableSyncForDatatype(): Disabled sync for datatype "
             << syncable::ModelTypeToString(datatype) << " on Client " << id_;
   } else {
     VLOG(1) << "DisableSyncForDatatype(): Sync already disabled for datatype "
             << syncable::ModelTypeToString(datatype) << " on Client " << id_;
   }
 }

 void ProfileSyncServiceHarness::EnableSyncForAllDatatypes() {
   LogClientInfo("EnableSyncForAllDatatypes");
   if (wait_state_ == SYNC_DISABLED) {
     wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
     DCHECK(SetupSync()) << "Reinitialization of Client " << id_ << " failed.";
   } else {
     syncable::ModelTypeSet synced_datatypes;
     for (int i = syncable::FIRST_REAL_MODEL_TYPE;
         i < syncable::MODEL_TYPE_COUNT; ++i) {
       synced_datatypes.insert(syncable::ModelTypeFromInt(i));
     }
     DCHECK(service() != NULL) << "EnableSyncForAllDatatypes(): service() is "
                                  " null.";
     service()->OnUserChoseDatatypes(true, synced_datatypes);
     wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
     AwaitSyncCycleCompletion("Waiting for datatype configuration.");
     VLOG(1) << "EnableSyncForAllDatatypes(): Enabled sync for all datatypes on "
                "Client " << id_;
   }
 }

 void ProfileSyncServiceHarness::DisableSyncForAllDatatypes() {
   LogClientInfo("DisableSyncForAllDatatypes");
   DCHECK(service() != NULL) << "EnableSyncForAllDatatypes(): service() is "
                                "null.";
   service()->DisableForUser();
   wait_state_ = SYNC_DISABLED;
   VLOG(1) << "DisableSyncForAllDatatypes(): Disabled sync for all datatypes on "
              "Client " << id_;
 }

 std::string ProfileSyncServiceHarness::GetUpdatedTimestamp(
     syncable::ModelType model_type) {
   const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
   DCHECK(snap != NULL) << "GetUpdatedTimestamp(): Sync snapshot is NULL.";
   return snap->download_progress_markers[model_type];
 }

 void ProfileSyncServiceHarness::LogClientInfo(const std::string& message) {
   if (service()) {
     const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
     if (snap) {
       VLOG(1) << "Client " << id_ << ": " << message
               << ": num_updates_downloaded : "
               << snap->syncer_status.num_updates_downloaded_total
               << ", has_more_to_sync: " << snap->has_more_to_sync
               << ", unsynced_count: " << snap->unsynced_count
               << ", num_conflicting_updates: " << snap->num_conflicting_updates
               << ", has_unsynced_items: "
               << service()->HasUnsyncedItems()
               << ", observed_passphrase_required: "
               << service()->observed_passphrase_required()
               << ", notifications_enabled: "
               << GetStatus().notifications_enabled
               << ", service_is_pushing_changes: " << ServiceIsPushingChanges();
     } else {
       VLOG(1) << "Client " << id_ << ": " << message
               << ": Sync session snapshot not available.";
     }
   } else {
     VLOG(1) << "Client " << id_ << ": " << message
             << ": Sync service not available.";
   }
 }

 bool ProfileSyncServiceHarness::EnableEncryptionForType(
     syncable::ModelType type) {
   syncable::ModelTypeSet encrypted_types;
   service_->GetEncryptedDataTypes(&encrypted_types);
   if (encrypted_types.count(type) > 0)
     return true;
   encrypted_types.insert(type);
   service_->EncryptDataTypes(encrypted_types);

   // Wait some time to let the enryption finish.
   std::string reason = "Waiting for encryption.";
   DCHECK_EQ(FULLY_SYNCED, wait_state_);
   wait_state_ = WAITING_FOR_ENCRYPTION;
   waiting_for_encryption_type_ = type;
   if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason)) {
     LOG(ERROR) << "Did not receive EncryptionComplete notification after"
                << kLiveSyncOperationTimeoutMs / 1000
                << " seconds.";
     return false;
   }

   return IsTypeEncrypted(type);
 }

 bool ProfileSyncServiceHarness::IsTypeEncrypted(syncable::ModelType type) {
   syncable::ModelTypeSet encrypted_types;
   service_->GetEncryptedDataTypes(&encrypted_types);
   if (encrypted_types.count(type) == 0) {
     return false;
   }
   return true;
 }
	// 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/sync/profile_sync_service_harness.h"

	#include <stddef.h>
	#include <algorithm>
	#include <iterator>
	#include <ostream>
	#include <set>
	#include <vector>

	#include "base/logging.h"
	#include "base/memory/ref_counted.h"
	#include "base/message_loop.h"
	#include "base/task.h"
	#include "base/tracked.h"
	#include "chrome/browser/profiles/profile.h"
	#include "chrome/browser/sync/sessions/session_state.h"
	#include "chrome/browser/sync/signin_manager.h"

	using browser_sync::sessions::SyncSessionSnapshot;

	// The amount of time for which we wait for a live sync operation to complete.
	static const int kLiveSyncOperationTimeoutMs = 45000;

	// Simple class to implement a timeout using PostDelayedTask. If it is not
	// aborted before picked up by a message queue, then it asserts with the message
	// provided. This class is not thread safe.
	class StateChangeTimeoutEvent
	: public base::RefCountedThreadSafe<StateChangeTimeoutEvent> {
	public:
	StateChangeTimeoutEvent(ProfileSyncServiceHarness* caller,
	const std::string& message);

	// The entry point to the class from PostDelayedTask.
	void Callback();

	// Cancels the actions of the callback. Returns true if success, false
	// if the callback has already timed out.
	bool Abort();

	private:
	friend class base::RefCountedThreadSafe<StateChangeTimeoutEvent>;

	~StateChangeTimeoutEvent();

	bool aborted_;
	bool did_timeout_;

	// Due to synchronization of the IO loop, the caller will always be alive
	// if the class is not aborted.
	ProfileSyncServiceHarness* caller_;

	// Informative message to assert in the case of a timeout.
	std::string message_;

	DISALLOW_COPY_AND_ASSIGN(StateChangeTimeoutEvent);
	};

	StateChangeTimeoutEvent::StateChangeTimeoutEvent(
	ProfileSyncServiceHarness* caller,
	const std::string& message)
	: aborted_(false), did_timeout_(false), caller_(caller), message_(message) {
	}

	StateChangeTimeoutEvent::~StateChangeTimeoutEvent() {
	}

	void StateChangeTimeoutEvent::Callback() {
	if (!aborted_) {
	if (!caller_->RunStateChangeMachine()) {
	// Report the message.
	did_timeout_ = true;
	DCHECK(!aborted_) << message_;
	caller_->SignalStateComplete();
	}
	}
	}

	bool StateChangeTimeoutEvent::Abort() {
	aborted_ = true;
	caller_ = NULL;
	return !did_timeout_;
	}

	ProfileSyncServiceHarness::ProfileSyncServiceHarness(
	Profile* profile,
	const std::string& username,
	const std::string& password,
	int id)
	: waiting_for_encryption_type_(syncable::UNSPECIFIED),
	wait_state_(INITIAL_WAIT_STATE),
	profile_(profile),
	service_(NULL),
	timestamp_match_partner_(NULL),
	username_(username),
	password_(password),
	id_(id) {
	if (IsSyncAlreadySetup()) {
	service_ = profile_->GetProfileSyncService();
	service_->AddObserver(this);
	wait_state_ = FULLY_SYNCED;
	}
	}

	// static
	ProfileSyncServiceHarness* ProfileSyncServiceHarness::CreateAndAttach(
	Profile* profile) {
	if (!profile->HasProfileSyncService()) {
	NOTREACHED() << "Profile has never signed into sync.";
	return NULL;
	}
	return new ProfileSyncServiceHarness(profile, "", "", 0);
	}

	void ProfileSyncServiceHarness::SetCredentials(const std::string& username,
	const std::string& password) {
	username_ = username;
	password_ = password;
	}

	bool ProfileSyncServiceHarness::IsSyncAlreadySetup() {
	return profile_->HasProfileSyncService();
	}

	bool ProfileSyncServiceHarness::SetupSync() {
	syncable::ModelTypeSet synced_datatypes;
	for (int i = syncable::FIRST_REAL_MODEL_TYPE;
	i < syncable::MODEL_TYPE_COUNT; ++i) {
	synced_datatypes.insert(syncable::ModelTypeFromInt(i));
	}
	return SetupSync(synced_datatypes);
	}

	bool ProfileSyncServiceHarness::SetupSync(
	const syncable::ModelTypeSet& synced_datatypes) {
	// Initialize the sync client's profile sync service object.
	service_ = profile_->GetProfileSyncService("");
	if (service_ == NULL) {
	LOG(ERROR) << "SetupSync(): service_ is null.";
	return false;
	}

	// Subscribe sync client to notifications from the profile sync service.
	if (!service_->HasObserver(this))
	service_->AddObserver(this);

	// Authenticate sync client using GAIA credentials.
	service_->signin()->StartSignIn(username_, password_, "", "");

	// Wait for the OnBackendInitialized() callback.
	wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
	if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
	"Waiting for OnBackendInitialized().")) {
	LOG(ERROR) << "OnBackendInitialized() not seen after "
	<< kLiveSyncOperationTimeoutMs / 1000
	<< " seconds.";
	return false;
	}

	// Choose the datatypes to be synced. If all datatypes are to be synced,
	// set sync_everything to true; otherwise, set it to false.
	bool sync_everything = (synced_datatypes.size() ==
	(syncable::MODEL_TYPE_COUNT - syncable::FIRST_REAL_MODEL_TYPE));
	service()->OnUserChoseDatatypes(sync_everything, synced_datatypes);

	// Wait for initial sync cycle to be completed.
	DCHECK_EQ(wait_state_, WAITING_FOR_INITIAL_SYNC);
	if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
	"Waiting for initial sync cycle to complete.")) {
	LOG(ERROR) << "Initial sync cycle did not complete after "
	<< kLiveSyncOperationTimeoutMs / 1000
	<< " seconds.";
	return false;
	}

	// Indicate to the browser that sync setup is complete.
	service()->SetSyncSetupCompleted();

	return true;
	}

	void ProfileSyncServiceHarness::SignalStateCompleteWithNextState(
	WaitState next_state) {
	wait_state_ = next_state;
	SignalStateComplete();
	}

	void ProfileSyncServiceHarness::SignalStateComplete() {
	MessageLoop::current()->Quit();
	}

	bool ProfileSyncServiceHarness::RunStateChangeMachine() {
	WaitState original_wait_state = wait_state_;
	switch (wait_state_) {
	case WAITING_FOR_ON_BACKEND_INITIALIZED: {
	LogClientInfo("WAITING_FOR_ON_BACKEND_INITIALIZED");
	if (service()->sync_initialized()) {
	// The sync backend is initialized.
	SignalStateCompleteWithNextState(WAITING_FOR_INITIAL_SYNC);
	}
	break;
	}
	case WAITING_FOR_INITIAL_SYNC: {
	LogClientInfo("WAITING_FOR_INITIAL_SYNC");
	if (IsSynced()) {
	// The first sync cycle is now complete. We can start running tests.
	SignalStateCompleteWithNextState(FULLY_SYNCED);
	}
	break;
	}
	case WAITING_FOR_SYNC_TO_FINISH: {
	LogClientInfo("WAITING_FOR_SYNC_TO_FINISH");
	if (!IsSynced()) {
	// The client is not yet fully synced. Continue waiting.
	if (!GetStatus().server_reachable) {
	// The client cannot reach the sync server because the network is
	// disabled. There is no need to wait anymore.
	SignalStateCompleteWithNextState(SERVER_UNREACHABLE);
	}
	break;
	}
	SignalStateCompleteWithNextState(FULLY_SYNCED);
	break;
	}
	case WAITING_FOR_UPDATES: {
	LogClientInfo("WAITING_FOR_UPDATES");
	DCHECK(timestamp_match_partner_);
	if (!MatchesOtherClient(timestamp_match_partner_)) {
	// The client is not yet fully synced; keep waiting until we converge.
	break;
	}
	timestamp_match_partner_->service()->RemoveObserver(this);
	timestamp_match_partner_ = NULL;

	SignalStateCompleteWithNextState(FULLY_SYNCED);
	break;
	}
	case WAITING_FOR_PASSPHRASE_ACCEPTED: {
	LogClientInfo("WAITING_FOR_PASSPHRASE_ACCEPTED");
	// TODO(atwilson): After ProfileSyncService::OnPassphraseAccepted() is
	// fixed, add an extra check to make sure that the value of
	// service()->observed_passphrase_required() is false.
	if (service()->ShouldPushChanges()) {
	// The passphrase has been accepted, and sync has been restarted.
	SignalStateCompleteWithNextState(FULLY_SYNCED);
	}
	break;
	}
	case WAITING_FOR_ENCRYPTION: {
	LogClientInfo("WAITING_FOR_ENCRYPTION");
	if (IsTypeEncrypted(waiting_for_encryption_type_)) {
	// Encryption is complete for the type we are waiting on.
	SignalStateCompleteWithNextState(FULLY_SYNCED);
	}
	break;
	}
	case SERVER_UNREACHABLE: {
	LogClientInfo("SERVER_UNREACHABLE");
	if (GetStatus().server_reachable) {
	// The client was offline due to the network being disabled, but is now
	// back online. Wait for the pending sync cycle to complete.
	SignalStateCompleteWithNextState(WAITING_FOR_SYNC_TO_FINISH);
	}
	break;
	}
	case FULLY_SYNCED: {
	// The client is online and fully synced. There is nothing to do.
	LogClientInfo("FULLY_SYNCED");
	break;
	}
	case SYNC_DISABLED: {
	// Syncing is disabled for the client. There is nothing to do.
	LogClientInfo("SYNC_DISABLED");
	break;
	}
	default:
	// Invalid state during observer callback which may be triggered by other
	// classes using the the UI message loop. Defer to their handling.
	break;
	}
	return original_wait_state != wait_state_;
	}

	void ProfileSyncServiceHarness::OnStateChanged() {
	RunStateChangeMachine();
	}

	bool ProfileSyncServiceHarness::AwaitPassphraseAccepted() {
	LogClientInfo("AwaitPassphraseAccepted");
	if (wait_state_ == SYNC_DISABLED) {
	LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
	return false;
	}

	// TODO(atwilson): After ProfileSyncService::OnPassphraseAccepted() is
	// fixed, add an extra check to make sure that the value of
	// service()->observed_passphrase_required() is false.
	if (service()->ShouldPushChanges()) {
	// Passphrase is already accepted; don't wait.
	return true;
	}

	wait_state_ = WAITING_FOR_PASSPHRASE_ACCEPTED;
	return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs,
	"Waiting for passphrase accepted.");
	}

	bool ProfileSyncServiceHarness::AwaitSyncCycleCompletion(
	const std::string& reason) {
	LogClientInfo("AwaitSyncCycleCompletion");
	if (wait_state_ == SYNC_DISABLED) {
	LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
	return false;
	}

	if (IsSynced()) {
	// Client is already synced; don't wait.
	return true;
	}

	if (wait_state_ == SERVER_UNREACHABLE) {
	// Client was offline; wait for it to go online, and then wait for sync.
	AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
	DCHECK_EQ(wait_state_, WAITING_FOR_SYNC_TO_FINISH);
	return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
	} else {
	DCHECK(service()->sync_initialized());
	wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
	AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
	if (wait_state_ == FULLY_SYNCED) {
	// Client is online; sync was successful.
	return true;
	} else if (wait_state_ == SERVER_UNREACHABLE) {
	// Client is offline; sync was unsuccessful.
	return false;
	} else {
	LOG(ERROR) << "Invalid wait state:" << wait_state_;
	return false;
	}
	}
	}

	bool ProfileSyncServiceHarness::AwaitMutualSyncCycleCompletion(
	ProfileSyncServiceHarness* partner) {
	LogClientInfo("AwaitMutualSyncCycleCompletion");
	if (!AwaitSyncCycleCompletion("Sync cycle completion on active client."))
	return false;
	return partner->WaitUntilTimestampMatches(this,
	"Sync cycle completion on passive client.");
	}

	bool ProfileSyncServiceHarness::AwaitGroupSyncCycleCompletion(
	std::vector<ProfileSyncServiceHarness*>& partners) {
	LogClientInfo("AwaitGroupSyncCycleCompletion");
	if (!AwaitSyncCycleCompletion("Sync cycle completion on active client."))
	return false;
	bool return_value = true;
	for (std::vector<ProfileSyncServiceHarness*>::iterator it =
	partners.begin(); it != partners.end(); ++it) {
	if ((this != it) && ((it)->wait_state_ != SYNC_DISABLED)) {
	return_value = return_value &&
	(*it)->WaitUntilTimestampMatches(this,
	"Sync cycle completion on partner client.");
	}
	}
	return return_value;
	}

	// static
	bool ProfileSyncServiceHarness::AwaitQuiescence(
	std::vector<ProfileSyncServiceHarness*>& clients) {
	VLOG(1) << "AwaitQuiescence.";
	bool return_value = true;
	for (std::vector<ProfileSyncServiceHarness*>::iterator it =
	clients.begin(); it != clients.end(); ++it) {
	if ((*it)->wait_state_ != SYNC_DISABLED)
	return_value = return_value &&
	(*it)->AwaitGroupSyncCycleCompletion(clients);
	}
	return return_value;
	}

	bool ProfileSyncServiceHarness::WaitUntilTimestampMatches(
	ProfileSyncServiceHarness* partner, const std::string& reason) {
	LogClientInfo("WaitUntilTimestampMatches");
	if (wait_state_ == SYNC_DISABLED) {
	LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
	return false;
	}

	if (MatchesOtherClient(partner)) {
	// Timestamps already match; don't wait.
	return true;
	}

	DCHECK(!timestamp_match_partner_);
	timestamp_match_partner_ = partner;
	partner->service()->AddObserver(this);
	wait_state_ = WAITING_FOR_UPDATES;
	return AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason);
	}

	bool ProfileSyncServiceHarness::AwaitStatusChangeWithTimeout(
	int timeout_milliseconds,
	const std::string& reason) {
	LogClientInfo("AwaitStatusChangeWithTimeout");
	if (wait_state_ == SYNC_DISABLED) {
	LOG(ERROR) << "Sync disabled for Client " << id_ << ".";
	return false;
	}
	scoped_refptr<StateChangeTimeoutEvent> timeout_signal(
	new StateChangeTimeoutEvent(this, reason));
	MessageLoop* loop = MessageLoop::current();
	bool did_allow_nestable_tasks = loop->NestableTasksAllowed();
	loop->SetNestableTasksAllowed(true);
	loop->PostDelayedTask(
	FROM_HERE,
	NewRunnableMethod(timeout_signal.get(),
	&StateChangeTimeoutEvent::Callback),
	timeout_milliseconds);
	loop->Run();
	loop->SetNestableTasksAllowed(did_allow_nestable_tasks);
	if (timeout_signal->Abort()) {
	LogClientInfo("AwaitStatusChangeWithTimeout succeeded");
	return true;
	} else {
	LogClientInfo("AwaitStatusChangeWithTimeout timed out");
	return false;
	}
	}

	ProfileSyncService::Status ProfileSyncServiceHarness::GetStatus() {
	DCHECK(service() != NULL) << "GetStatus(): service() is NULL.";
	return service()->QueryDetailedSyncStatus();
	}

	bool ProfileSyncServiceHarness::IsSynced() {
	LogClientInfo("IsSynced");
	if (service() == NULL)
	return false;
	const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
	// TODO(rsimha): Remove additional checks of snap->has_more_to_sync and
	// snap->unsynced_count once http://crbug.com/48989 is fixed.
	return (snap &&
	snap->num_conflicting_updates == 0 && // We can decrypt everything.
	ServiceIsPushingChanges() &&
	GetStatus().notifications_enabled &&
	!service()->HasUnsyncedItems() &&
	!snap->has_more_to_sync &&
	snap->unsynced_count == 0);
	}

	bool ProfileSyncServiceHarness::MatchesOtherClient(
	ProfileSyncServiceHarness* partner) {
	if (!IsSynced())
	return false;

	// Only look for a match if we have at least one enabled datatype in
	// common with the partner client.
	syncable::ModelTypeSet types, other_types, intersection_types;
	service()->GetPreferredDataTypes(&types);
	partner->service()->GetPreferredDataTypes(&other_types);
	std::set_intersection(types.begin(), types.end(), other_types.begin(),
	other_types.end(),
	inserter(intersection_types,
	intersection_types.begin()));
	for (syncable::ModelTypeSet::iterator i = intersection_types.begin();
	i != intersection_types.end();
	++i) {
	if (!partner->IsSynced() \|\|
	partner->GetUpdatedTimestamp(i) != GetUpdatedTimestamp(i)) {
	return false;
	}
	}
	return true;
	}

	const SyncSessionSnapshot*
	ProfileSyncServiceHarness::GetLastSessionSnapshot() const {
	DCHECK(service_ != NULL) << "Sync service has not yet been set up.";
	if (service_->sync_initialized()) {
	return service_->GetLastSessionSnapshot();
	}
	return NULL;
	}

	void ProfileSyncServiceHarness::EnableSyncForDatatype(
	syncable::ModelType datatype) {
	LogClientInfo("EnableSyncForDatatype");
	syncable::ModelTypeSet synced_datatypes;
	if (wait_state_ == SYNC_DISABLED) {
	wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
	synced_datatypes.insert(datatype);
	DCHECK(SetupSync(synced_datatypes)) << "Reinitialization of Client " << id_
	<< " failed.";
	} else {
	DCHECK(service() != NULL) << "EnableSyncForDatatype(): service() is null.";
	service()->GetPreferredDataTypes(&synced_datatypes);
	syncable::ModelTypeSet::iterator it = synced_datatypes.find(
	syncable::ModelTypeFromInt(datatype));
	if (it == synced_datatypes.end()) {
	synced_datatypes.insert(syncable::ModelTypeFromInt(datatype));
	service()->OnUserChoseDatatypes(false, synced_datatypes);
	wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
	AwaitSyncCycleCompletion("Waiting for datatype configuration.");
	VLOG(1) << "EnableSyncForDatatype(): Enabled sync for datatype "
	<< syncable::ModelTypeToString(datatype) << " on Client " << id_;
	} else {
	VLOG(1) << "EnableSyncForDatatype(): Sync already enabled for datatype "
	<< syncable::ModelTypeToString(datatype) << " on Client " << id_;
	}
	}
	}

	void ProfileSyncServiceHarness::DisableSyncForDatatype(
	syncable::ModelType datatype) {
	LogClientInfo("DisableSyncForDatatype");
	syncable::ModelTypeSet synced_datatypes;
	DCHECK(service() != NULL) << "DisableSyncForDatatype(): service() is null.";
	service()->GetPreferredDataTypes(&synced_datatypes);
	syncable::ModelTypeSet::iterator it = synced_datatypes.find(datatype);
	if (it != synced_datatypes.end()) {
	synced_datatypes.erase(it);
	service()->OnUserChoseDatatypes(false, synced_datatypes);
	AwaitSyncCycleCompletion("Waiting for datatype configuration.");
	VLOG(1) << "DisableSyncForDatatype(): Disabled sync for datatype "
	<< syncable::ModelTypeToString(datatype) << " on Client " << id_;
	} else {
	VLOG(1) << "DisableSyncForDatatype(): Sync already disabled for datatype "
	<< syncable::ModelTypeToString(datatype) << " on Client " << id_;
	}
	}

	void ProfileSyncServiceHarness::EnableSyncForAllDatatypes() {
	LogClientInfo("EnableSyncForAllDatatypes");
	if (wait_state_ == SYNC_DISABLED) {
	wait_state_ = WAITING_FOR_ON_BACKEND_INITIALIZED;
	DCHECK(SetupSync()) << "Reinitialization of Client " << id_ << " failed.";
	} else {
	syncable::ModelTypeSet synced_datatypes;
	for (int i = syncable::FIRST_REAL_MODEL_TYPE;
	i < syncable::MODEL_TYPE_COUNT; ++i) {
	synced_datatypes.insert(syncable::ModelTypeFromInt(i));
	}
	DCHECK(service() != NULL) << "EnableSyncForAllDatatypes(): service() is "
	" null.";
	service()->OnUserChoseDatatypes(true, synced_datatypes);
	wait_state_ = WAITING_FOR_SYNC_TO_FINISH;
	AwaitSyncCycleCompletion("Waiting for datatype configuration.");
	VLOG(1) << "EnableSyncForAllDatatypes(): Enabled sync for all datatypes on "
	"Client " << id_;
	}
	}

	void ProfileSyncServiceHarness::DisableSyncForAllDatatypes() {
	LogClientInfo("DisableSyncForAllDatatypes");
	DCHECK(service() != NULL) << "EnableSyncForAllDatatypes(): service() is "
	"null.";
	service()->DisableForUser();
	wait_state_ = SYNC_DISABLED;
	VLOG(1) << "DisableSyncForAllDatatypes(): Disabled sync for all datatypes on "
	"Client " << id_;
	}

	std::string ProfileSyncServiceHarness::GetUpdatedTimestamp(
	syncable::ModelType model_type) {
	const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
	DCHECK(snap != NULL) << "GetUpdatedTimestamp(): Sync snapshot is NULL.";
	return snap->download_progress_markers[model_type];
	}

	void ProfileSyncServiceHarness::LogClientInfo(const std::string& message) {
	if (service()) {
	const SyncSessionSnapshot* snap = GetLastSessionSnapshot();
	if (snap) {
	VLOG(1) << "Client " << id_ << ": " << message
	<< ": num_updates_downloaded : "
	<< snap->syncer_status.num_updates_downloaded_total
	<< ", has_more_to_sync: " << snap->has_more_to_sync
	<< ", unsynced_count: " << snap->unsynced_count
	<< ", num_conflicting_updates: " << snap->num_conflicting_updates
	<< ", has_unsynced_items: "
	<< service()->HasUnsyncedItems()
	<< ", observed_passphrase_required: "
	<< service()->observed_passphrase_required()
	<< ", notifications_enabled: "
	<< GetStatus().notifications_enabled
	<< ", service_is_pushing_changes: " << ServiceIsPushingChanges();
	} else {
	VLOG(1) << "Client " << id_ << ": " << message
	<< ": Sync session snapshot not available.";
	}
	} else {
	VLOG(1) << "Client " << id_ << ": " << message
	<< ": Sync service not available.";
	}
	}

	bool ProfileSyncServiceHarness::EnableEncryptionForType(
	syncable::ModelType type) {
	syncable::ModelTypeSet encrypted_types;
	service_->GetEncryptedDataTypes(&encrypted_types);
	if (encrypted_types.count(type) > 0)
	return true;
	encrypted_types.insert(type);
	service_->EncryptDataTypes(encrypted_types);

	// Wait some time to let the enryption finish.
	std::string reason = "Waiting for encryption.";
	DCHECK_EQ(FULLY_SYNCED, wait_state_);
	wait_state_ = WAITING_FOR_ENCRYPTION;
	waiting_for_encryption_type_ = type;
	if (!AwaitStatusChangeWithTimeout(kLiveSyncOperationTimeoutMs, reason)) {
	LOG(ERROR) << "Did not receive EncryptionComplete notification after"
	<< kLiveSyncOperationTimeoutMs / 1000
	<< " seconds.";
	return false;
	}

	return IsTypeEncrypted(type);
	}

	bool ProfileSyncServiceHarness::IsTypeEncrypted(syncable::ModelType type) {
	syncable::ModelTypeSet encrypted_types;
	service_->GetEncryptedDataTypes(&encrypted_types);
	if (encrypted_types.count(type) == 0) {
	return false;
	}
	return true;
	}