content/browser/appcache/appcache_group.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 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 "content/browser/appcache/appcache_group.h"

 #include <algorithm>

 #include "base/bind.h"
 #include "base/logging.h"
 #include "base/message_loop/message_loop.h"
 #include "content/browser/appcache/appcache.h"
 #include "content/browser/appcache/appcache_host.h"
 #include "content/browser/appcache/appcache_service_impl.h"
 #include "content/browser/appcache/appcache_storage.h"
 #include "content/browser/appcache/appcache_update_job.h"

 namespace content {

 class AppCacheGroup;

 // Use this helper class because we cannot make AppCacheGroup a derived class
 // of AppCacheHost::Observer as it would create a circular dependency between
 // AppCacheHost and AppCacheGroup.
 class AppCacheGroup::HostObserver : public AppCacheHost::Observer {
  public:
   explicit HostObserver(AppCacheGroup* group) : group_(group) {}

   // Methods for AppCacheHost::Observer.
   virtual void OnCacheSelectionComplete(AppCacheHost* host) OVERRIDE {}  // N/A
   virtual void OnDestructionImminent(AppCacheHost* host) OVERRIDE {
     group_->HostDestructionImminent(host);
   }
  private:
   AppCacheGroup* group_;
 };

 AppCacheGroup::AppCacheGroup(AppCacheStorage* storage,
                              const GURL& manifest_url,
                              int64 group_id)
     : group_id_(group_id),
       manifest_url_(manifest_url),
       update_status_(IDLE),
       is_obsolete_(false),
       is_being_deleted_(false),
       newest_complete_cache_(NULL),
       update_job_(NULL),
       storage_(storage),
       is_in_dtor_(false) {
   storage_->working_set()->AddGroup(this);
   host_observer_.reset(new HostObserver(this));
 }

 AppCacheGroup::~AppCacheGroup() {
   DCHECK(old_caches_.empty());
   DCHECK(!newest_complete_cache_);
   DCHECK(restart_update_task_.IsCancelled());
   DCHECK(queued_updates_.empty());

   is_in_dtor_ = true;

   if (update_job_)
     delete update_job_;
   DCHECK_EQ(IDLE, update_status_);

   storage_->working_set()->RemoveGroup(this);
   storage_->DeleteResponses(manifest_url_, newly_deletable_response_ids_);
 }

 void AppCacheGroup::AddUpdateObserver(UpdateObserver* observer) {
   // If observer being added is a host that has been queued for later update,
   // add observer to a different observer list.
   AppCacheHost* host = static_cast<AppCacheHost*>(observer);
   if (queued_updates_.find(host) != queued_updates_.end())
     queued_observers_.AddObserver(observer);
   else
     observers_.AddObserver(observer);
 }

 void AppCacheGroup::RemoveUpdateObserver(UpdateObserver* observer) {
   observers_.RemoveObserver(observer);
   queued_observers_.RemoveObserver(observer);
 }

 void AppCacheGroup::AddCache(AppCache* complete_cache) {
   DCHECK(complete_cache->is_complete());
   complete_cache->set_owning_group(this);

   if (!newest_complete_cache_) {
     newest_complete_cache_ = complete_cache;
     return;
   }

   if (complete_cache->IsNewerThan(newest_complete_cache_)) {
     old_caches_.push_back(newest_complete_cache_);
     newest_complete_cache_ = complete_cache;

     // Update hosts of older caches to add a reference to the newest cache.
     for (Caches::iterator it = old_caches_.begin();
          it != old_caches_.end(); ++it) {
       AppCache::AppCacheHosts& hosts = (*it)->associated_hosts();
       for (AppCache::AppCacheHosts::iterator host_it = hosts.begin();
            host_it != hosts.end(); ++host_it) {
         (*host_it)->SetSwappableCache(this);
       }
     }
   } else {
     old_caches_.push_back(complete_cache);
   }
 }

 void AppCacheGroup::RemoveCache(AppCache* cache) {
   DCHECK(cache->associated_hosts().empty());
   if (cache == newest_complete_cache_) {
     AppCache* tmp_cache = newest_complete_cache_;
     newest_complete_cache_ = NULL;
     tmp_cache->set_owning_group(NULL);  // may cause this group to be deleted
   } else {
     scoped_refptr<AppCacheGroup> protect(this);

     Caches::iterator it =
         std::find(old_caches_.begin(), old_caches_.end(), cache);
     if (it != old_caches_.end()) {
       AppCache* tmp_cache = *it;
       old_caches_.erase(it);
       tmp_cache->set_owning_group(NULL);  // may cause group to be released
     }

     if (!is_obsolete() && old_caches_.empty() &&
         !newly_deletable_response_ids_.empty()) {
       storage_->DeleteResponses(manifest_url_, newly_deletable_response_ids_);
       newly_deletable_response_ids_.clear();
     }
   }
 }

 void AppCacheGroup::AddNewlyDeletableResponseIds(
     std::vector<int64>* response_ids) {
   if (is_being_deleted() || (!is_obsolete() && old_caches_.empty())) {
     storage_->DeleteResponses(manifest_url_, *response_ids);
     response_ids->clear();
     return;
   }

   if (newly_deletable_response_ids_.empty()) {
     newly_deletable_response_ids_.swap(*response_ids);
     return;
   }
   newly_deletable_response_ids_.insert(
       newly_deletable_response_ids_.end(),
       response_ids->begin(), response_ids->end());
   response_ids->clear();
 }

 void AppCacheGroup::StartUpdateWithNewMasterEntry(
     AppCacheHost* host, const GURL& new_master_resource) {
   DCHECK(!is_obsolete() && !is_being_deleted());
   if (is_in_dtor_)
     return;

   if (!update_job_)
     update_job_ = new AppCacheUpdateJob(storage_->service(), this);

   update_job_->StartUpdate(host, new_master_resource);

   // Run queued update immediately as an update has been started manually.
   if (!restart_update_task_.IsCancelled()) {
     restart_update_task_.Cancel();
     RunQueuedUpdates();
   }
 }

 void AppCacheGroup::CancelUpdate() {
   if (update_job_) {
     delete update_job_;
     DCHECK(!update_job_);
     DCHECK_EQ(IDLE, update_status_);
   }
 }

 void AppCacheGroup::QueueUpdate(AppCacheHost* host,
                                 const GURL& new_master_resource) {
   DCHECK(update_job_ && host && !new_master_resource.is_empty());
   queued_updates_.insert(QueuedUpdates::value_type(host, new_master_resource));

   // Need to know when host is destroyed.
   host->AddObserver(host_observer_.get());

   // If host is already observing for updates, move host to queued observers
   // list so that host is not notified when the current update completes.
   if (FindObserver(host, observers_)) {
     observers_.RemoveObserver(host);
     queued_observers_.AddObserver(host);
   }
 }

 void AppCacheGroup::RunQueuedUpdates() {
   if (!restart_update_task_.IsCancelled())
     restart_update_task_.Cancel();

   if (queued_updates_.empty())
     return;

   QueuedUpdates updates_to_run;
   queued_updates_.swap(updates_to_run);
   DCHECK(queued_updates_.empty());

   for (QueuedUpdates::iterator it = updates_to_run.begin();
        it != updates_to_run.end(); ++it) {
     AppCacheHost* host = it->first;
     host->RemoveObserver(host_observer_.get());
     if (FindObserver(host, queued_observers_)) {
       queued_observers_.RemoveObserver(host);
       observers_.AddObserver(host);
     }

     if (!is_obsolete() && !is_being_deleted())
       StartUpdateWithNewMasterEntry(host, it->second);
   }
 }

 bool AppCacheGroup::FindObserver(UpdateObserver* find_me,
     const ObserverList<UpdateObserver>& observer_list) {
   return observer_list.HasObserver(find_me);
 }

 void AppCacheGroup::ScheduleUpdateRestart(int delay_ms) {
   DCHECK(restart_update_task_.IsCancelled());
   restart_update_task_.Reset(
       base::Bind(&AppCacheGroup::RunQueuedUpdates, this));
   base::MessageLoop::current()->PostDelayedTask(
       FROM_HERE,
       restart_update_task_.callback(),
       base::TimeDelta::FromMilliseconds(delay_ms));
 }

 void AppCacheGroup::HostDestructionImminent(AppCacheHost* host) {
   queued_updates_.erase(host);
   if (queued_updates_.empty() && !restart_update_task_.IsCancelled())
     restart_update_task_.Cancel();
 }

 void AppCacheGroup::SetUpdateAppCacheStatus(UpdateAppCacheStatus status) {
   if (status == update_status_)
     return;

   update_status_ = status;

   if (status != IDLE) {
     DCHECK(update_job_);
   } else {
     update_job_ = NULL;

     // Observers may release us in these callbacks, so we protect against
     // deletion by adding an extra ref in this scope (but only if we're not
     // in our destructor).
     scoped_refptr<AppCacheGroup> protect(is_in_dtor_ ? NULL : this);
     FOR_EACH_OBSERVER(UpdateObserver, observers_, OnUpdateComplete(this));
     if (!queued_updates_.empty())
       ScheduleUpdateRestart(kUpdateRestartDelayMs);
   }
 }

 }  // namespace content
	// Copyright (c) 2012 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 "content/browser/appcache/appcache_group.h"

	#include <algorithm>

	#include "base/bind.h"
	#include "base/logging.h"
	#include "base/message_loop/message_loop.h"
	#include "content/browser/appcache/appcache.h"
	#include "content/browser/appcache/appcache_host.h"
	#include "content/browser/appcache/appcache_service_impl.h"
	#include "content/browser/appcache/appcache_storage.h"
	#include "content/browser/appcache/appcache_update_job.h"

	namespace content {

	class AppCacheGroup;

	// Use this helper class because we cannot make AppCacheGroup a derived class
	// of AppCacheHost::Observer as it would create a circular dependency between
	// AppCacheHost and AppCacheGroup.
	class AppCacheGroup::HostObserver : public AppCacheHost::Observer {
	public:
	explicit HostObserver(AppCacheGroup* group) : group_(group) {}

	// Methods for AppCacheHost::Observer.
	virtual void OnCacheSelectionComplete(AppCacheHost* host) OVERRIDE {} // N/A
	virtual void OnDestructionImminent(AppCacheHost* host) OVERRIDE {
	group_->HostDestructionImminent(host);
	}
	private:
	AppCacheGroup* group_;
	};

	AppCacheGroup::AppCacheGroup(AppCacheStorage* storage,
	const GURL& manifest_url,
	int64 group_id)
	: group_id_(group_id),
	manifest_url_(manifest_url),
	update_status_(IDLE),
	is_obsolete_(false),
	is_being_deleted_(false),
	newest_complete_cache_(NULL),
	update_job_(NULL),
	storage_(storage),
	is_in_dtor_(false) {
	storage_->working_set()->AddGroup(this);
	host_observer_.reset(new HostObserver(this));
	}

	AppCacheGroup::~AppCacheGroup() {
	DCHECK(old_caches_.empty());
	DCHECK(!newest_complete_cache_);
	DCHECK(restart_update_task_.IsCancelled());
	DCHECK(queued_updates_.empty());

	is_in_dtor_ = true;

	if (update_job_)
	delete update_job_;
	DCHECK_EQ(IDLE, update_status_);

	storage_->working_set()->RemoveGroup(this);
	storage_->DeleteResponses(manifest_url_, newly_deletable_response_ids_);
	}

	void AppCacheGroup::AddUpdateObserver(UpdateObserver* observer) {
	// If observer being added is a host that has been queued for later update,
	// add observer to a different observer list.
	AppCacheHost* host = static_cast<AppCacheHost*>(observer);
	if (queued_updates_.find(host) != queued_updates_.end())
	queued_observers_.AddObserver(observer);
	else
	observers_.AddObserver(observer);
	}

	void AppCacheGroup::RemoveUpdateObserver(UpdateObserver* observer) {
	observers_.RemoveObserver(observer);
	queued_observers_.RemoveObserver(observer);
	}

	void AppCacheGroup::AddCache(AppCache* complete_cache) {
	DCHECK(complete_cache->is_complete());
	complete_cache->set_owning_group(this);

	if (!newest_complete_cache_) {
	newest_complete_cache_ = complete_cache;
	return;
	}

	if (complete_cache->IsNewerThan(newest_complete_cache_)) {
	old_caches_.push_back(newest_complete_cache_);
	newest_complete_cache_ = complete_cache;

	// Update hosts of older caches to add a reference to the newest cache.
	for (Caches::iterator it = old_caches_.begin();
	it != old_caches_.end(); ++it) {
	AppCache::AppCacheHosts& hosts = (*it)->associated_hosts();
	for (AppCache::AppCacheHosts::iterator host_it = hosts.begin();
	host_it != hosts.end(); ++host_it) {
	(*host_it)->SetSwappableCache(this);
	}
	}
	} else {
	old_caches_.push_back(complete_cache);
	}
	}

	void AppCacheGroup::RemoveCache(AppCache* cache) {
	DCHECK(cache->associated_hosts().empty());
	if (cache == newest_complete_cache_) {
	AppCache* tmp_cache = newest_complete_cache_;
	newest_complete_cache_ = NULL;
	tmp_cache->set_owning_group(NULL); // may cause this group to be deleted
	} else {
	scoped_refptr<AppCacheGroup> protect(this);

	Caches::iterator it =
	std::find(old_caches_.begin(), old_caches_.end(), cache);
	if (it != old_caches_.end()) {
	AppCache* tmp_cache = *it;
	old_caches_.erase(it);
	tmp_cache->set_owning_group(NULL); // may cause group to be released
	}

	if (!is_obsolete() && old_caches_.empty() &&
	!newly_deletable_response_ids_.empty()) {
	storage_->DeleteResponses(manifest_url_, newly_deletable_response_ids_);
	newly_deletable_response_ids_.clear();
	}
	}
	}

	void AppCacheGroup::AddNewlyDeletableResponseIds(
	std::vector<int64>* response_ids) {
	if (is_being_deleted() \|\| (!is_obsolete() && old_caches_.empty())) {
	storage_->DeleteResponses(manifest_url_, *response_ids);
	response_ids->clear();
	return;
	}

	if (newly_deletable_response_ids_.empty()) {
	newly_deletable_response_ids_.swap(*response_ids);
	return;
	}
	newly_deletable_response_ids_.insert(
	newly_deletable_response_ids_.end(),
	response_ids->begin(), response_ids->end());
	response_ids->clear();
	}

	void AppCacheGroup::StartUpdateWithNewMasterEntry(
	AppCacheHost* host, const GURL& new_master_resource) {
	DCHECK(!is_obsolete() && !is_being_deleted());
	if (is_in_dtor_)
	return;

	if (!update_job_)
	update_job_ = new AppCacheUpdateJob(storage_->service(), this);

	update_job_->StartUpdate(host, new_master_resource);

	// Run queued update immediately as an update has been started manually.
	if (!restart_update_task_.IsCancelled()) {
	restart_update_task_.Cancel();
	RunQueuedUpdates();
	}
	}

	void AppCacheGroup::CancelUpdate() {
	if (update_job_) {
	delete update_job_;
	DCHECK(!update_job_);
	DCHECK_EQ(IDLE, update_status_);
	}
	}

	void AppCacheGroup::QueueUpdate(AppCacheHost* host,
	const GURL& new_master_resource) {
	DCHECK(update_job_ && host && !new_master_resource.is_empty());
	queued_updates_.insert(QueuedUpdates::value_type(host, new_master_resource));

	// Need to know when host is destroyed.
	host->AddObserver(host_observer_.get());

	// If host is already observing for updates, move host to queued observers
	// list so that host is not notified when the current update completes.
	if (FindObserver(host, observers_)) {
	observers_.RemoveObserver(host);
	queued_observers_.AddObserver(host);
	}
	}

	void AppCacheGroup::RunQueuedUpdates() {
	if (!restart_update_task_.IsCancelled())
	restart_update_task_.Cancel();

	if (queued_updates_.empty())
	return;

	QueuedUpdates updates_to_run;
	queued_updates_.swap(updates_to_run);
	DCHECK(queued_updates_.empty());

	for (QueuedUpdates::iterator it = updates_to_run.begin();
	it != updates_to_run.end(); ++it) {
	AppCacheHost* host = it->first;
	host->RemoveObserver(host_observer_.get());
	if (FindObserver(host, queued_observers_)) {
	queued_observers_.RemoveObserver(host);
	observers_.AddObserver(host);
	}

	if (!is_obsolete() && !is_being_deleted())
	StartUpdateWithNewMasterEntry(host, it->second);
	}
	}

	bool AppCacheGroup::FindObserver(UpdateObserver* find_me,
	const ObserverList<UpdateObserver>& observer_list) {
	return observer_list.HasObserver(find_me);
	}

	void AppCacheGroup::ScheduleUpdateRestart(int delay_ms) {
	DCHECK(restart_update_task_.IsCancelled());
	restart_update_task_.Reset(
	base::Bind(&AppCacheGroup::RunQueuedUpdates, this));
	base::MessageLoop::current()->PostDelayedTask(
	FROM_HERE,
	restart_update_task_.callback(),
	base::TimeDelta::FromMilliseconds(delay_ms));
	}

	void AppCacheGroup::HostDestructionImminent(AppCacheHost* host) {
	queued_updates_.erase(host);
	if (queued_updates_.empty() && !restart_update_task_.IsCancelled())
	restart_update_task_.Cancel();
	}

	void AppCacheGroup::SetUpdateAppCacheStatus(UpdateAppCacheStatus status) {
	if (status == update_status_)
	return;

	update_status_ = status;

	if (status != IDLE) {
	DCHECK(update_job_);
	} else {
	update_job_ = NULL;

	// Observers may release us in these callbacks, so we protect against
	// deletion by adding an extra ref in this scope (but only if we're not
	// in our destructor).
	scoped_refptr<AppCacheGroup> protect(is_in_dtor_ ? NULL : this);
	FOR_EACH_OBSERVER(UpdateObserver, observers_, OnUpdateComplete(this));
	if (!queued_updates_.empty())
	ScheduleUpdateRestart(kUpdateRestartDelayMs);
	}
	}

	} // namespace content