plasma-framework/private/storagethread.cpp
2011-04-29 11:17:30 +02:00

297 lines
9.2 KiB
C++

/*
* Copyright 2011 Marco Martin <mart@kde.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU Library General Public License as
* published by the Free Software Foundation; either version 2, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details
*
* You should have received a copy of the GNU Library General Public
* License along with this program; if not, write to the
* Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "storagethread_p.h"
#include <QSqlError>
#include <QSqlQuery>
#include <QSqlField>
#include <QSqlDriver>
#include <QSqlRecord>
#include <kdebug.h>
#include <kstandarddirs.h>
namespace Plasma
{
class StorageThreadSingleton
{
public:
StorageThreadSingleton()
{
}
StorageThread self;
};
K_GLOBAL_STATIC(StorageThreadSingleton, privateStorageThreadSelf)
StorageThread::StorageThread(QObject *parent)
: QThread(parent)
{
}
StorageThread::~StorageThread()
{
QString name = m_db.connectionName();
QSqlDatabase::removeDatabase(name);
}
Plasma::StorageThread *StorageThread::self()
{
return &privateStorageThreadSelf->self;
}
void StorageThread::initializeDb(StorageJob* caller)
{
if (!m_db.open()) {
m_db = QSqlDatabase::addDatabase("QSQLITE", QString("plasma-storage-%1").arg((quintptr)this));
m_db.setDatabaseName(KStandardDirs::locateLocal("appdata", "plasma-storage2.db"));
}
if (!m_db.open()) {
kWarning() << "Unable to open the plasma storage cache database: " << m_db.lastError();
} else if (!m_db.tables().contains(caller->clientName())) {
QSqlQuery query(m_db);
query.prepare(QString("create table ") + caller->clientName() + " (valueGroup varchar(256), id varchar(256), txt TEXT, int INTEGER, float REAL, binary BLOB, creationTime datetime, accessTime datetime, primary key (valueGroup, id))");
if (!query.exec()) {
kWarning() << "Unable to create table for" << caller->clientName();
m_db.close();
}
}
m_db.transaction();
}
void StorageThread::save(StorageJob* caller, const QVariantMap &params)
{
initializeDb(caller);
QString valueGroup = params["group"].toString();
if (valueGroup.isEmpty()) {
valueGroup = "default";
}
QSqlQuery query(m_db);
if (params.value("key").toString().isNull()) {
caller->data().insert(params.value("key").toString(), params.value("data"));
}
QHashIterator<QString, QVariant> it(caller->data());
QString ids;
while (it.hasNext()) {
it.next();
QSqlField field(":id", QVariant::String);
field.setValue(it.key());
if (!ids.isEmpty()) {
ids.append(", ");
}
ids.append(m_db.driver()->formatValue(field));
}
query.prepare("delete from " + caller->clientName() + " where valueGroup = :valueGroup and id in (" + ids + ");");
query.bindValue(":valueGroup", valueGroup);
if (!query.exec()) {
m_db.commit();
emit newResult(caller, false);
return;
}
query.prepare("insert into " + caller->clientName() + " values(:valueGroup, :id, :txt, :int, :float, :binary, date('now'), date('now'))");
query.bindValue(":valueGroup", valueGroup);
query.bindValue(":txt", QVariant());
query.bindValue(":int", QVariant());
query.bindValue(":float", QVariant());
query.bindValue(":binary", QVariant());
const QString key = params.value("key").toString();
if (!key.isEmpty()) {
caller->data().insert(key, params["data"]);
}
it.toFront();
while (it.hasNext()) {
it.next();
//kDebug() << "going to insert" << valueGroup << it.key();
query.bindValue(":id", it.key());
QString field;
switch (QMetaType::Type(it.value().type())) {
case QVariant::String:
field = ":txt";
break;
case QVariant::Int:
field = ":int";
break;
case QVariant::Double:
case QMetaType::Float:
field = ":float";
break;
case QVariant::ByteArray:
field = ":binary";
break;
default:
continue;
break;
}
query.bindValue(field, it.value());
if (!query.exec()) {
//kDebug() << "query failed:" << query.lastQuery() << query.lastError().text();
m_db.commit();
emit newResult(caller, false);
return;
}
query.bindValue(field, QVariant());
}
m_db.commit();
emit newResult(caller, true);
}
void StorageThread::retrieve(StorageJob* caller, const QVariantMap &params)
{
initializeDb(caller);
QString valueGroup = params["group"].toString();
if (valueGroup.isEmpty()) {
valueGroup = "default";
}
QSqlQuery query(m_db);
//a bit redundant but should be the faster way with less string concatenation as possible
if (params["key"].toString().isEmpty()) {
//update modification time
query.prepare("update " + caller->clientName() + " set accessTime=date('now') where valueGroup=:valueGroup");
query.bindValue(":valueGroup", valueGroup);
query.exec();
query.prepare("select * from " + caller->clientName() + " where valueGroup=:valueGroup");
query.bindValue(":valueGroup", valueGroup);
} else {
//update modification time
query.prepare("update " + caller->clientName() + " set accessTime=date('now') where valueGroup=:valueGroup and id=:key");
query.bindValue(":valueGroup", valueGroup);
query.bindValue(":key", params["key"].toString());
query.exec();
query.prepare("select * from " + caller->clientName() + " where valueGroup=:valueGroup and id=:key");
query.bindValue(":valueGroup", valueGroup);
query.bindValue(":key", params["key"].toString());
}
const bool success = query.exec();
QVariant result;
caller->data().clear();
if (success) {
QSqlRecord rec = query.record();
const int keyColumn = rec.indexOf("id");
const int textColumn = rec.indexOf("txt");
const int intColumn = rec.indexOf("int");
const int floatColumn = rec.indexOf("float");
const int binaryColumn = rec.indexOf("binary");
while (query.next()) {
const QString key = query.value(keyColumn).toString();
if (!query.value(textColumn).isNull()) {
caller->data().insert(key, query.value(textColumn));
} else if (!query.value(intColumn).isNull()) {
caller->data().insert(key, query.value(intColumn));
} else if (!query.value(floatColumn).isNull()) {
caller->data().insert(key, query.value(floatColumn));
} else if (!query.value(binaryColumn).isNull()) {
caller->data().insert(key, query.value(binaryColumn));
}
}
result = caller->data();
} else {
result = false;
}
emit newResult(caller, result);
}
void StorageThread::deleteEntry(StorageJob* caller, const QVariantMap &params)
{
initializeDb(caller);
QString valueGroup = params["group"].toString();
if (valueGroup.isEmpty()) {
valueGroup = "default";
}
QSqlQuery query(m_db);
if (params["key"].toString().isEmpty()) {
query.prepare("delete from "+caller->clientName()+" where valueGroup=:valueGroup");
query.bindValue(":valueGroup", valueGroup);
} else {
query.prepare("delete from "+caller->clientName()+" where valueGroup=:valueGroup and id=:key");
query.bindValue(":valueGroup", valueGroup);
query.bindValue(":key", params["key"].toString());
}
const bool success = query.exec();
emit newResult(caller, success);
}
void StorageThread::expire(StorageJob* caller, const QVariantMap &params)
{
initializeDb(caller);
QString valueGroup = params["group"].toString();
if (valueGroup.isEmpty()) {
valueGroup = "default";
}
QSqlQuery query(m_db);
if (valueGroup.isEmpty()) {
query.prepare("delete from "+caller->clientName()+" where accessTime < :date");
QDateTime time(QDateTime::currentDateTime());
time.addSecs(-params["age"].toUInt());
query.bindValue(":date", time.toTime_t());
} else {
query.prepare("delete from "+caller->clientName()+" where valueGroup=:valueGroup and accessTime < :date");
query.bindValue(":valueGroup", valueGroup);
QDateTime time(QDateTime::currentDateTime());
time.addSecs(-params["age"].toUInt());
query.bindValue(":date", time.toTime_t());
}
const bool success = query.exec();
emit newResult(caller, success);
}
void StorageThread::run()
{
exec();
}
}
#include "storagethread_p.moc"