src/cobalt/storage/storage_manager.h - cobalt - Git at Google

 // Copyright 2015 Google Inc. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef COBALT_STORAGE_STORAGE_MANAGER_H_
 #define COBALT_STORAGE_STORAGE_MANAGER_H_

 #include <vector>

 #include "base/callback.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/message_loop.h"
 #include "base/synchronization/waitable_event.h"
 #include "base/threading/thread.h"
 #include "base/threading/thread_checker.h"
 #include "base/timer.h"
 #include "cobalt/storage/savegame_thread.h"
 #include "cobalt/storage/sql_vfs.h"
 #include "cobalt/storage/upgrade/upgrade_reader.h"
 #include "cobalt/storage/virtual_file_system.h"
 #include "sql/connection.h"

 namespace cobalt {
 namespace storage {
 class SqlContext;

 // StorageManager manages a SQLite database containing cookies and local
 // storage data. On most platforms, this is written to disk as a savegame
 // using platform APIs. On Linux/Windows, it's a regular file.
 // Internally this runs two threads: one thread to perform blocking I/O,
 // and one where SQL operations occur.  Users are expected to access the
 // database via an SqlContext, which can be obtained with GetSqlContext().
 // The callback to GetSqlCallback will run on the SQL thread.
 // Operations on SqlContext will block the SQL thread until the savegame
 // is loaded.
 class StorageManager {
  public:
   // Support for "upgrade" of legacy save data that may have been generated by
   // a platform other than Steel/Cobalt. If save data in the upgrade format is
   // detected, the |OnUpgrade| method will be called on |upgrade_handler_|.
   class UpgradeHandler {
    public:
     virtual ~UpgradeHandler() {}
     virtual void OnUpgrade(StorageManager* storage, const char* data,
                            int size) = 0;
   };

   struct Options {
     Savegame::Options savegame_options;
   };

   typedef base::Callback<void(SqlContext*)> SqlCallback;

   // Database version "2" indicates that this was created by Steel v1.x.
   // Database version "0" indicates that this was created by v2.x beta,
   //   patches 0-3.  Version "0" is a default from sqlite3 because these
   //   versions of the application did not set this value at all.
   // Database version "3" indicates that the schema versions of individual
   //   tables should be tracked in SchemaTable.
   static const int kDatabaseUserVersion = 3;

   // Schema-related error codes.  See GetSchemaVersion().
   enum {
     kSchemaTableIsNew = -1,
     kSchemaVersionLost = -2,
   };

   StorageManager(scoped_ptr<UpgradeHandler> upgrade_handler,
                  const Options& options);
   virtual ~StorageManager();

   // Obtain the SqlContext for our database.
   // |callback| will be called with an SqlContext that can be used to operate on
   // the database. The callback will run on the storage manager's message loop.
   void GetSqlContext(const SqlCallback& callback);

   // Schedule a write of our database to disk to happen at some point in the
   // future. Multiple calls to Flush() do not necessarily result in multiple
   // writes to disk.
   // This call returns immediately.
   void Flush();

   // Triggers a write to disk to happen immediately.  Each call to FlushNow()
   // will result in a write to disk.
   // |callback|, if provided, will be called when the I/O has completed,
   // and will be run on the storage manager's IO thread.
   // This call returns immediately.
   void FlushNow(const base::Closure& callback);

   const Options& options() const { return options_; }

   UpgradeHandler* upgrade_handler() const { return upgrade_handler_.get(); }

  protected:
   // Queues a flush to be executed as soon as possible.  As soon as possible
   // will be as soon as any existing flush completes, or right away if no
   // existing flush is happening.  Note that it is protected and virtual for
   // white box testing purposes.
   virtual void QueueFlush(const base::Closure& callback);

  private:
   // SqlContext needs access to our internal APIs.
   friend class SqlContext;
   // Give StorageManagerTest access, so we can more easily test some internals.
   friend class StorageManagerTest;

   // Flushes all queued flushes to the savegame thread.
   virtual void FlushInternal();

   // Initialize the SQLite database. This blocks until the savegame load is
   // complete.
   void FinishInit();

   // Callback when flush timer has elapsed.
   void OnFlushTimerFired();

   // Logic to be executed on the SQL thread when a flush completes.  Will
   // dispatch |flush_processing_callbacks_| callbacks and execute a new flush
   // if |flush_requested_| is true.
   void OnFlushIOCompletedSQLCallback();

   // This function will not return until all queued I/O is completed.  Since
   // it will require the SQL message loop to process, it must be called from
   // outside the SQL message loop (such as from StorageManager's destructor).
   void FinishIO();

   // Called by the destructor, to ensure we destroy certain objects on the
   // sql thread.
   void OnDestroy();

   // Internal API for use by SqlContext.
   sql::Connection* sql_connection();
   bool GetSchemaVersion(const char* table_name, int* schema_version);
   void UpdateSchemaVersion(const char* table_name, int version);

   // Upgrade handler used if upgrade save data is detected.
   scoped_ptr<UpgradeHandler> upgrade_handler_;

   // Configuration options for the Storage Manager.
   Options options_;

   // Storage manager runs on its own thread. This is where SQL database
   // operations are done.
   scoped_ptr<base::Thread> sql_thread_;
   scoped_refptr<base::MessageLoopProxy> sql_message_loop_;

   // An interface to the storage manager's SQL database that will run on
   // the correct thread.
   scoped_ptr<SqlContext> sql_context_;

   // The in-memory database connection.
   scoped_ptr<sql::Connection> connection_;

   // Virtual file system that contains our in-memory SQLite database.
   scoped_ptr<VirtualFileSystem> vfs_;

   // An interface between Sqlite and VirtualFileSystem.
   scoped_ptr<SqlVfs> sql_vfs_;

   // When the savegame is loaded at startup, we keep the raw data around
   // until we can initialize the database on the correct thread.
   scoped_ptr<Savegame::ByteVector> loaded_raw_bytes_;

   // Timer that starts running when Flush() is called. When the time elapses,
   // we actually perform the write. This is a simple form of rate limiting
   // for I/O writes.
   scoped_ptr<base::OneShotTimer<StorageManager> > flush_timer_;

   // See comments for for kDatabaseUserVersion.
   int loaded_database_version_;
   // false until the SQL database is fully configured.
   bool initialized_;

   // True if a flush is currently being processed on the storage message loop.
   // In this case, we should not issue more flushes, but instead set
   // |flush_requested_| to true to ensure that a new flush is submitted as
   // soon as we are done processing the current one.
   bool flush_processing_;

   // The queue of callbacks that are should be called when the current flush
   // completes.  If this is not empty, then |flush_processing_| must be true.
   std::vector<base::Closure> flush_processing_callbacks_;

   // True if |flush_processing_| is true, but we would like to perform a new
   // flush as soon as it completes.
   bool flush_requested_;

   // The queue of callbacks that will be called when the flush that follows
   // the current flush completes.  If this is non-empty, then |flush_requested_|
   // must be true.
   std::vector<base::Closure> flush_requested_callbacks_;

   base::WaitableEvent no_flushes_pending_;

   // An object that wraps Savegame inside of an I/O thread so that we can
   // flush data asynchronously.
   scoped_ptr<SavegameThread> savegame_thread_;

   DISALLOW_COPY_AND_ASSIGN(StorageManager);
 };

 // Proxy for accessing StorageManager's SQL database in a thread-safe way.
 // All access to the StorageManager's database should be done via an SqlContext.
 // Only the StorageManager can create this class.
 class SqlContext {
  public:
   sql::Connection* sql_connection() const {
     return storage_manager_->sql_connection();
   }

   // Get the schema version for the given table.
   // Returns false if the table does not exist, otherwise returns true
   // and writes the version number to the schema_version pointer.
   // schema_version will be set to kSchemaTableIsNew if the table exists,
   // but the schema table was newly created in this session.
   // schema_version will be set to kSchemaVersionLost if the table exists,
   // and the schema table existed once before, but has since been lost.
   // In this case, the schema version cannot be known or directly inferred.
   bool GetSchemaVersion(const char* table_name, int* schema_version) {
     return storage_manager_->GetSchemaVersion(table_name, schema_version);
   }

   // Updates the schema version for the given table.
   // The version number must be greater than 0.
   void UpdateSchemaVersion(const char* table_name, int version) {
     return storage_manager_->UpdateSchemaVersion(table_name, version);
   }

   void Flush() { storage_manager_->Flush(); }

   void FlushNow(const base::Closure& callback) {
     storage_manager_->FlushNow(callback);
   }

  private:
   StorageManager* storage_manager_;

   explicit SqlContext(StorageManager* storage_manager)
       : storage_manager_(storage_manager) {}

   friend StorageManager::StorageManager(
       scoped_ptr<StorageManager::UpgradeHandler> upgrade_handler,
       const Options& options);
   DISALLOW_COPY_AND_ASSIGN(SqlContext);
 };

 }  // namespace storage
 }  // namespace cobalt

 #endif  // COBALT_STORAGE_STORAGE_MANAGER_H_
	// Copyright 2015 Google Inc. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef COBALT_STORAGE_STORAGE_MANAGER_H_
	#define COBALT_STORAGE_STORAGE_MANAGER_H_

	#include <vector>

	#include "base/callback.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/message_loop.h"
	#include "base/synchronization/waitable_event.h"
	#include "base/threading/thread.h"
	#include "base/threading/thread_checker.h"
	#include "base/timer.h"
	#include "cobalt/storage/savegame_thread.h"
	#include "cobalt/storage/sql_vfs.h"
	#include "cobalt/storage/upgrade/upgrade_reader.h"
	#include "cobalt/storage/virtual_file_system.h"
	#include "sql/connection.h"

	namespace cobalt {
	namespace storage {
	class SqlContext;

	// StorageManager manages a SQLite database containing cookies and local
	// storage data. On most platforms, this is written to disk as a savegame
	// using platform APIs. On Linux/Windows, it's a regular file.
	// Internally this runs two threads: one thread to perform blocking I/O,
	// and one where SQL operations occur. Users are expected to access the
	// database via an SqlContext, which can be obtained with GetSqlContext().
	// The callback to GetSqlCallback will run on the SQL thread.
	// Operations on SqlContext will block the SQL thread until the savegame
	// is loaded.
	class StorageManager {
	public:
	// Support for "upgrade" of legacy save data that may have been generated by
	// a platform other than Steel/Cobalt. If save data in the upgrade format is
	// detected, the \|OnUpgrade\| method will be called on \|upgrade_handler_\|.
	class UpgradeHandler {
	public:
	virtual ~UpgradeHandler() {}
	virtual void OnUpgrade(StorageManager* storage, const char* data,
	int size) = 0;
	};

	struct Options {
	Savegame::Options savegame_options;
	};

	typedef base::Callback<void(SqlContext*)> SqlCallback;

	// Database version "2" indicates that this was created by Steel v1.x.
	// Database version "0" indicates that this was created by v2.x beta,
	// patches 0-3. Version "0" is a default from sqlite3 because these
	// versions of the application did not set this value at all.
	// Database version "3" indicates that the schema versions of individual
	// tables should be tracked in SchemaTable.
	static const int kDatabaseUserVersion = 3;

	// Schema-related error codes. See GetSchemaVersion().
	enum {
	kSchemaTableIsNew = -1,
	kSchemaVersionLost = -2,
	};

	StorageManager(scoped_ptr<UpgradeHandler> upgrade_handler,
	const Options& options);
	virtual ~StorageManager();

	// Obtain the SqlContext for our database.
	// \|callback\| will be called with an SqlContext that can be used to operate on
	// the database. The callback will run on the storage manager's message loop.
	void GetSqlContext(const SqlCallback& callback);

	// Schedule a write of our database to disk to happen at some point in the
	// future. Multiple calls to Flush() do not necessarily result in multiple
	// writes to disk.
	// This call returns immediately.
	void Flush();

	// Triggers a write to disk to happen immediately. Each call to FlushNow()
	// will result in a write to disk.
	// \|callback\|, if provided, will be called when the I/O has completed,
	// and will be run on the storage manager's IO thread.
	// This call returns immediately.
	void FlushNow(const base::Closure& callback);

	const Options& options() const { return options_; }

	UpgradeHandler* upgrade_handler() const { return upgrade_handler_.get(); }

	protected:
	// Queues a flush to be executed as soon as possible. As soon as possible
	// will be as soon as any existing flush completes, or right away if no
	// existing flush is happening. Note that it is protected and virtual for
	// white box testing purposes.
	virtual void QueueFlush(const base::Closure& callback);

	private:
	// SqlContext needs access to our internal APIs.
	friend class SqlContext;
	// Give StorageManagerTest access, so we can more easily test some internals.
	friend class StorageManagerTest;

	// Flushes all queued flushes to the savegame thread.
	virtual void FlushInternal();

	// Initialize the SQLite database. This blocks until the savegame load is
	// complete.
	void FinishInit();

	// Callback when flush timer has elapsed.
	void OnFlushTimerFired();

	// Logic to be executed on the SQL thread when a flush completes. Will
	// dispatch \|flush_processing_callbacks_\| callbacks and execute a new flush
	// if \|flush_requested_\| is true.
	void OnFlushIOCompletedSQLCallback();

	// This function will not return until all queued I/O is completed. Since
	// it will require the SQL message loop to process, it must be called from
	// outside the SQL message loop (such as from StorageManager's destructor).
	void FinishIO();

	// Called by the destructor, to ensure we destroy certain objects on the
	// sql thread.
	void OnDestroy();

	// Internal API for use by SqlContext.
	sql::Connection* sql_connection();
	bool GetSchemaVersion(const char* table_name, int* schema_version);
	void UpdateSchemaVersion(const char* table_name, int version);

	// Upgrade handler used if upgrade save data is detected.
	scoped_ptr<UpgradeHandler> upgrade_handler_;

	// Configuration options for the Storage Manager.
	Options options_;

	// Storage manager runs on its own thread. This is where SQL database
	// operations are done.
	scoped_ptr<base::Thread> sql_thread_;
	scoped_refptr<base::MessageLoopProxy> sql_message_loop_;

	// An interface to the storage manager's SQL database that will run on
	// the correct thread.
	scoped_ptr<SqlContext> sql_context_;

	// The in-memory database connection.
	scoped_ptr<sql::Connection> connection_;

	// Virtual file system that contains our in-memory SQLite database.
	scoped_ptr<VirtualFileSystem> vfs_;

	// An interface between Sqlite and VirtualFileSystem.
	scoped_ptr<SqlVfs> sql_vfs_;

	// When the savegame is loaded at startup, we keep the raw data around
	// until we can initialize the database on the correct thread.
	scoped_ptr<Savegame::ByteVector> loaded_raw_bytes_;

	// Timer that starts running when Flush() is called. When the time elapses,
	// we actually perform the write. This is a simple form of rate limiting
	// for I/O writes.
	scoped_ptr<base::OneShotTimer<StorageManager> > flush_timer_;

	// See comments for for kDatabaseUserVersion.
	int loaded_database_version_;
	// false until the SQL database is fully configured.
	bool initialized_;

	// True if a flush is currently being processed on the storage message loop.
	// In this case, we should not issue more flushes, but instead set
	// \|flush_requested_\| to true to ensure that a new flush is submitted as
	// soon as we are done processing the current one.
	bool flush_processing_;

	// The queue of callbacks that are should be called when the current flush
	// completes. If this is not empty, then \|flush_processing_\| must be true.
	std::vector<base::Closure> flush_processing_callbacks_;

	// True if \|flush_processing_\| is true, but we would like to perform a new
	// flush as soon as it completes.
	bool flush_requested_;

	// The queue of callbacks that will be called when the flush that follows
	// the current flush completes. If this is non-empty, then \|flush_requested_\|
	// must be true.
	std::vector<base::Closure> flush_requested_callbacks_;

	base::WaitableEvent no_flushes_pending_;

	// An object that wraps Savegame inside of an I/O thread so that we can
	// flush data asynchronously.
	scoped_ptr<SavegameThread> savegame_thread_;

	DISALLOW_COPY_AND_ASSIGN(StorageManager);
	};

	// Proxy for accessing StorageManager's SQL database in a thread-safe way.
	// All access to the StorageManager's database should be done via an SqlContext.
	// Only the StorageManager can create this class.
	class SqlContext {
	public:
	sql::Connection* sql_connection() const {
	return storage_manager_->sql_connection();
	}

	// Get the schema version for the given table.
	// Returns false if the table does not exist, otherwise returns true
	// and writes the version number to the schema_version pointer.
	// schema_version will be set to kSchemaTableIsNew if the table exists,
	// but the schema table was newly created in this session.
	// schema_version will be set to kSchemaVersionLost if the table exists,
	// and the schema table existed once before, but has since been lost.
	// In this case, the schema version cannot be known or directly inferred.
	bool GetSchemaVersion(const char* table_name, int* schema_version) {
	return storage_manager_->GetSchemaVersion(table_name, schema_version);
	}

	// Updates the schema version for the given table.
	// The version number must be greater than 0.
	void UpdateSchemaVersion(const char* table_name, int version) {
	return storage_manager_->UpdateSchemaVersion(table_name, version);
	}

	void Flush() { storage_manager_->Flush(); }

	void FlushNow(const base::Closure& callback) {
	storage_manager_->FlushNow(callback);
	}

	private:
	StorageManager* storage_manager_;

	explicit SqlContext(StorageManager* storage_manager)
	: storage_manager_(storage_manager) {}

	friend StorageManager::StorageManager(
	scoped_ptr<StorageManager::UpgradeHandler> upgrade_handler,
	const Options& options);
	DISALLOW_COPY_AND_ASSIGN(SqlContext);
	};

	} // namespace storage
	} // namespace cobalt

	#endif // COBALT_STORAGE_STORAGE_MANAGER_H_