components/webdata/common/web_database.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 "components/webdata/common/web_database.h"

 #include <algorithm>

 #include "base/stl_util.h"
 #include "sql/statement.h"
 #include "sql/transaction.h"

 // Current version number.  Note: when changing the current version number,
 // corresponding changes must happen in the unit tests, and new migration test
 // added.  See |WebDatabaseMigrationTest::kCurrentTestedVersionNumber|.
 // static
 const int WebDatabase::kCurrentVersionNumber = 57;

 namespace {

 const int kCompatibleVersionNumber = 57;

 // Change the version number and possibly the compatibility version of
 // |meta_table_|.
 void ChangeVersion(sql::MetaTable* meta_table,
                    int version_num,
                    bool update_compatible_version_num) {
   meta_table->SetVersionNumber(version_num);
   if (update_compatible_version_num) {
     meta_table->SetCompatibleVersionNumber(
           std::min(version_num, kCompatibleVersionNumber));
   }
 }

 // Outputs the failed version number as a warning and always returns
 // |sql::INIT_FAILURE|.
 sql::InitStatus FailedMigrationTo(int version_num) {
   LOG(WARNING) << "Unable to update web database to version "
                << version_num << ".";
   NOTREACHED();
   return sql::INIT_FAILURE;
 }

 }  // namespace

 WebDatabase::WebDatabase() {}

 WebDatabase::~WebDatabase() {
 }

 void WebDatabase::AddTable(WebDatabaseTable* table) {
   tables_[table->GetTypeKey()] = table;
 }

 WebDatabaseTable* WebDatabase::GetTable(WebDatabaseTable::TypeKey key) {
   return tables_[key];
 }

 void WebDatabase::BeginTransaction() {
   db_.BeginTransaction();
 }

 void WebDatabase::CommitTransaction() {
   db_.CommitTransaction();
 }

 sql::Connection* WebDatabase::GetSQLConnection() {
   return &db_;
 }

 sql::InitStatus WebDatabase::Init(const base::FilePath& db_name) {
   db_.set_histogram_tag("Web");

   // We don't store that much data in the tables so use a small page size.
   // This provides a large benefit for empty tables (which is very likely with
   // the tables we create).
   db_.set_page_size(2048);

   // We shouldn't have much data and what access we currently have is quite
   // infrequent. So we go with a small cache size.
   db_.set_cache_size(32);

   // Run the database in exclusive mode. Nobody else should be accessing the
   // database while we're running, and this will give somewhat improved perf.
   db_.set_exclusive_locking();

   if (!db_.Open(db_name))
     return sql::INIT_FAILURE;

   // Initialize various tables
   sql::Transaction transaction(&db_);
   if (!transaction.Begin())
     return sql::INIT_FAILURE;

   // Version check.
   if (!meta_table_.Init(&db_, kCurrentVersionNumber, kCompatibleVersionNumber))
     return sql::INIT_FAILURE;
   if (meta_table_.GetCompatibleVersionNumber() > kCurrentVersionNumber) {
     LOG(WARNING) << "Web database is too new.";
     return sql::INIT_TOO_NEW;
   }

   // Initialize the tables.
   for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
     it->second->Init(&db_, &meta_table_);
   }

   // If the file on disk is an older database version, bring it up to date.
   // If the migration fails we return an error to caller and do not commit
   // the migration.
   sql::InitStatus migration_status = MigrateOldVersionsAsNeeded();
   if (migration_status != sql::INIT_OK)
     return migration_status;

   // Create the desired SQL tables if they do not already exist.
   // It's important that this happen *after* the migration code runs.
   // Otherwise, the migration code would have to explicitly check for empty
   // tables created in the new format, and skip the migration in that case.
   for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
     if (!it->second->CreateTablesIfNecessary()) {
       LOG(WARNING) << "Unable to initialize the web database.";
       return sql::INIT_FAILURE;
     }
   }

   return transaction.Commit() ? sql::INIT_OK : sql::INIT_FAILURE;
 }

 sql::InitStatus WebDatabase::MigrateOldVersionsAsNeeded() {
   // Some malware used to lower the version number, causing migration to
   // fail. Ensure the version number is at least as high as the compatible
   // version number.
   int current_version = std::max(meta_table_.GetVersionNumber(),
                                  meta_table_.GetCompatibleVersionNumber());
   if (current_version > meta_table_.GetVersionNumber())
     ChangeVersion(&meta_table_, current_version, false);

   if (current_version < 20) {
     // Versions 1 - 19 are unhandled.  Version numbers greater than
     // kCurrentVersionNumber should have already been weeded out by the caller.
     //
     // When the version is too old, we return failure error code.  The schema
     // is too out of date to migrate.
     //
     // There should not be a released product that makes a database too old to
     // migrate. If we do encounter such a legacy database, we will need a
     // better solution to handle it (i.e., pop up a dialog to tell the user,
     // erase all their prefs and start over, etc.).
     LOG(WARNING) << "Web database version " << current_version
                  << " is too old to handle.";
     NOTREACHED();
     return sql::INIT_FAILURE;
   }

   for (int next_version = current_version + 1;
        next_version <= kCurrentVersionNumber;
        ++next_version) {
     // Give each table a chance to migrate to this version.
     for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
       // Any of the tables may set this to true, but by default it is false.
       bool update_compatible_version = false;
       if (!it->second->MigrateToVersion(next_version,
                                         &update_compatible_version)) {
         return FailedMigrationTo(next_version);
       }

       ChangeVersion(&meta_table_, next_version, update_compatible_version);
     }
   }
   return sql::INIT_OK;
 }
	// 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 "components/webdata/common/web_database.h"

	#include <algorithm>

	#include "base/stl_util.h"
	#include "sql/statement.h"
	#include "sql/transaction.h"

	// Current version number. Note: when changing the current version number,
	// corresponding changes must happen in the unit tests, and new migration test
	// added. See \|WebDatabaseMigrationTest::kCurrentTestedVersionNumber\|.
	// static
	const int WebDatabase::kCurrentVersionNumber = 57;

	namespace {

	const int kCompatibleVersionNumber = 57;

	// Change the version number and possibly the compatibility version of
	// \|meta_table_\|.
	void ChangeVersion(sql::MetaTable* meta_table,
	int version_num,
	bool update_compatible_version_num) {
	meta_table->SetVersionNumber(version_num);
	if (update_compatible_version_num) {
	meta_table->SetCompatibleVersionNumber(
	std::min(version_num, kCompatibleVersionNumber));
	}
	}

	// Outputs the failed version number as a warning and always returns
	// \|sql::INIT_FAILURE\|.
	sql::InitStatus FailedMigrationTo(int version_num) {
	LOG(WARNING) << "Unable to update web database to version "
	<< version_num << ".";
	NOTREACHED();
	return sql::INIT_FAILURE;
	}

	} // namespace

	WebDatabase::WebDatabase() {}

	WebDatabase::~WebDatabase() {
	}

	void WebDatabase::AddTable(WebDatabaseTable* table) {
	tables_[table->GetTypeKey()] = table;
	}

	WebDatabaseTable* WebDatabase::GetTable(WebDatabaseTable::TypeKey key) {
	return tables_[key];
	}

	void WebDatabase::BeginTransaction() {
	db_.BeginTransaction();
	}

	void WebDatabase::CommitTransaction() {
	db_.CommitTransaction();
	}

	sql::Connection* WebDatabase::GetSQLConnection() {
	return &db_;
	}

	sql::InitStatus WebDatabase::Init(const base::FilePath& db_name) {
	db_.set_histogram_tag("Web");

	// We don't store that much data in the tables so use a small page size.
	// This provides a large benefit for empty tables (which is very likely with
	// the tables we create).
	db_.set_page_size(2048);

	// We shouldn't have much data and what access we currently have is quite
	// infrequent. So we go with a small cache size.
	db_.set_cache_size(32);

	// Run the database in exclusive mode. Nobody else should be accessing the
	// database while we're running, and this will give somewhat improved perf.
	db_.set_exclusive_locking();

	if (!db_.Open(db_name))
	return sql::INIT_FAILURE;

	// Initialize various tables
	sql::Transaction transaction(&db_);
	if (!transaction.Begin())
	return sql::INIT_FAILURE;

	// Version check.
	if (!meta_table_.Init(&db_, kCurrentVersionNumber, kCompatibleVersionNumber))
	return sql::INIT_FAILURE;
	if (meta_table_.GetCompatibleVersionNumber() > kCurrentVersionNumber) {
	LOG(WARNING) << "Web database is too new.";
	return sql::INIT_TOO_NEW;
	}

	// Initialize the tables.
	for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
	it->second->Init(&db_, &meta_table_);
	}

	// If the file on disk is an older database version, bring it up to date.
	// If the migration fails we return an error to caller and do not commit
	// the migration.
	sql::InitStatus migration_status = MigrateOldVersionsAsNeeded();
	if (migration_status != sql::INIT_OK)
	return migration_status;

	// Create the desired SQL tables if they do not already exist.
	// It's important that this happen after the migration code runs.
	// Otherwise, the migration code would have to explicitly check for empty
	// tables created in the new format, and skip the migration in that case.
	for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
	if (!it->second->CreateTablesIfNecessary()) {
	LOG(WARNING) << "Unable to initialize the web database.";
	return sql::INIT_FAILURE;
	}
	}

	return transaction.Commit() ? sql::INIT_OK : sql::INIT_FAILURE;
	}

	sql::InitStatus WebDatabase::MigrateOldVersionsAsNeeded() {
	// Some malware used to lower the version number, causing migration to
	// fail. Ensure the version number is at least as high as the compatible
	// version number.
	int current_version = std::max(meta_table_.GetVersionNumber(),
	meta_table_.GetCompatibleVersionNumber());
	if (current_version > meta_table_.GetVersionNumber())
	ChangeVersion(&meta_table_, current_version, false);

	if (current_version < 20) {
	// Versions 1 - 19 are unhandled. Version numbers greater than
	// kCurrentVersionNumber should have already been weeded out by the caller.
	//
	// When the version is too old, we return failure error code. The schema
	// is too out of date to migrate.
	//
	// There should not be a released product that makes a database too old to
	// migrate. If we do encounter such a legacy database, we will need a
	// better solution to handle it (i.e., pop up a dialog to tell the user,
	// erase all their prefs and start over, etc.).
	LOG(WARNING) << "Web database version " << current_version
	<< " is too old to handle.";
	NOTREACHED();
	return sql::INIT_FAILURE;
	}

	for (int next_version = current_version + 1;
	next_version <= kCurrentVersionNumber;
	++next_version) {
	// Give each table a chance to migrate to this version.
	for (TableMap::iterator it = tables_.begin(); it != tables_.end(); ++it) {
	// Any of the tables may set this to true, but by default it is false.
	bool update_compatible_version = false;
	if (!it->second->MigrateToVersion(next_version,
	&update_compatible_version)) {
	return FailedMigrationTo(next_version);
	}

	ChangeVersion(&meta_table_, next_version, update_compatible_version);
	}
	}
	return sql::INIT_OK;
	}