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kde-playground/kdepim/kalarm/kalarmapp.cpp

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import working copies of kdepim and kdepimlibs
2015-04-14 21:49:29 +00:00
/*
* kalarmapp.cpp - the KAlarm application object
* Program: kalarm
* Copyright © 2001-2014 by David Jarvie <djarvie@kde.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, 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 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 "kalarm.h"
#include "kalarmapp.h"
#include "alarmcalendar.h"
#include "alarmlistview.h"
#include "alarmtime.h"
#include "autoqpointer.h"
#include "commandoptions.h"
#include "dbushandler.h"
#include "editdlgtypes.h"
#ifdef USE_AKONADI
#include "collectionmodel.h"
#else
#include "eventlistmodel.h"
#endif
#include "functions.h"
#include "kamail.h"
#include "mainwindow.h"
#include "messagebox.h"
#include "messagewin.h"
#include "preferences.h"
#include "prefdlg.h"
#include "shellprocess.h"
#include "startdaytimer.h"
#include "traywindow.h"
#include "kspeechinterface.h"
#include <kalarmcal/datetime.h>
#include <kalarmcal/karecurrence.h>
#include <klocale.h>
#include <kstandarddirs.h>
#include <kconfig.h>
#include <kaboutdata.h>
#include <ktemporaryfile.h>
#include <kfileitem.h>
#include <kglobal.h>
#include <kstandardguiitem.h>
#include <kservicetypetrader.h>
#include <kspeech.h>
#include <ktoolinvocation.h>
#include <netwm.h>
#include <kdebug.h>
#include <kshell.h>
#include <ksystemtrayicon.h>
#include <ksystemtimezone.h>
#include <QObject>
#include <QTimer>
#include <QFile>
#include <QTextStream>
#include <QtDBus/QtDBus>
#include <stdlib.h>
#include <ctype.h>
#include <iostream>
#include <climits>
static const QLatin1String KTTSD_DBUS_SERVICE("org.kde.kttsd");
static const QLatin1String KTTDS_DBUS_PATH("/KSpeech");
#ifdef USE_AKONADI
static const int AKONADI_TIMEOUT = 30; // timeout (seconds) for Akonadi collections to be populated
#endif
static void setEventCommandError(const KAEvent&, KAEvent::CmdErrType);
static void clearEventCommandError(const KAEvent&, KAEvent::CmdErrType);
/******************************************************************************
* Find the maximum number of seconds late which a late-cancel alarm is allowed
* to be. This is calculated as the late cancel interval, plus a few seconds
* leeway to cater for any timing irregularities.
*/
static inline int maxLateness(int lateCancel)
{
static const int LATENESS_LEEWAY = 5;
int lc = (lateCancel >= 1) ? (lateCancel - 1)*60 : 0;
return LATENESS_LEEWAY + lc;
}
KAlarmApp* KAlarmApp::theInstance = 0;
int KAlarmApp::mActiveCount = 0;
int KAlarmApp::mFatalError = 0;
QString KAlarmApp::mFatalMessage;
/******************************************************************************
* Construct the application.
*/
KAlarmApp::KAlarmApp()
: KUniqueApplication(),
mInitialised(false),
mRedisplayAlarms(false),
mQuitting(false),
mReadOnly(false),
mLoginAlarmsDone(false),
mDBusHandler(new DBusHandler()),
mTrayWindow(0),
mAlarmTimer(0),
mArchivedPurgeDays(-1), // default to not purging
mPurgeDaysQueued(-1),
mKSpeech(0),
mPendingQuit(false),
mCancelRtcWake(false),
mProcessingQueue(false),
mSessionClosingDown(false),
mAlarmsEnabled(true),
mSpeechEnabled(false)
{
KGlobal::locale()->insertCatalog(QLatin1String("libkdepim"));
KGlobal::locale()->insertCatalog(QLatin1String("libkpimutils"));
kDebug();
#ifndef NDEBUG
KAlarm::setTestModeConditions();
#endif
setQuitOnLastWindowClosed(false);
Preferences::self(); // read KAlarm configuration
if (!Preferences::noAutoStart())
{
Preferences::setAutoStart(true);
Preferences::self()->writeConfig();
}
Preferences::connect(SIGNAL(startOfDayChanged(QTime)), this, SLOT(changeStartOfDay()));
Preferences::connect(SIGNAL(workTimeChanged(QTime,QTime,QBitArray)), this, SLOT(slotWorkTimeChanged(QTime,QTime,QBitArray)));
Preferences::connect(SIGNAL(holidaysChanged(KHolidays::HolidayRegion)), this, SLOT(slotHolidaysChanged(KHolidays::HolidayRegion)));
Preferences::connect(SIGNAL(feb29TypeChanged(Feb29Type)), this, SLOT(slotFeb29TypeChanged(Feb29Type)));
Preferences::connect(SIGNAL(showInSystemTrayChanged(bool)), this, SLOT(slotShowInSystemTrayChanged()));
Preferences::connect(SIGNAL(archivedKeepDaysChanged(int)), this, SLOT(setArchivePurgeDays()));
Preferences::connect(SIGNAL(messageFontChanged(QFont)), this, SLOT(slotMessageFontChanged(QFont)));
slotFeb29TypeChanged(Preferences::defaultFeb29Type());
connect(QDBusConnection::sessionBus().interface(), SIGNAL(serviceUnregistered(QString)),
SLOT(slotDBusServiceUnregistered(QString)));
KAEvent::setStartOfDay(Preferences::startOfDay());
KAEvent::setWorkTime(Preferences::workDays(), Preferences::workDayStart(), Preferences::workDayEnd());
KAEvent::setHolidays(Preferences::holidays());
KAEvent::setDefaultFont(Preferences::messageFont());
if (initialise()) // initialise calendars and alarm timer
{
#ifdef USE_AKONADI
connect(AkonadiModel::instance(), SIGNAL(collectionAdded(Akonadi::Collection)),
SLOT(purgeNewArchivedDefault(Akonadi::Collection)));
connect(AkonadiModel::instance(), SIGNAL(collectionTreeFetched(Akonadi::Collection::List)),
SLOT(checkWritableCalendar()));
connect(AkonadiModel::instance(), SIGNAL(migrationCompleted()),
SLOT(checkWritableCalendar()));
#endif
KConfigGroup config(KGlobal::config(), "General");
mNoSystemTray = config.readEntry("NoSystemTray", false);
mOldShowInSystemTray = wantShowInSystemTray();
DateTime::setStartOfDay(Preferences::startOfDay());
mPrefsArchivedColour = Preferences::archivedColour();
}
// Check if the speech synthesis daemon is installed
mSpeechEnabled = (KServiceTypeTrader::self()->query(QLatin1String("DBUS/Text-to-Speech"), QLatin1String("Name == 'KTTSD'")).count() > 0);
if (!mSpeechEnabled) { kDebug() << "Speech synthesis disabled (KTTSD not found)"; }
// Check if KOrganizer is installed
const QString korg = QLatin1String("korganizer");
mKOrganizerEnabled = !KStandardDirs::locate("exe", korg).isNull() || !KStandardDirs::findExe(korg).isNull();
if (!mKOrganizerEnabled) { kDebug() << "KOrganizer options disabled (KOrganizer not found)"; }
}
/******************************************************************************
*/
KAlarmApp::~KAlarmApp()
{
while (!mCommandProcesses.isEmpty())
{
ProcData* pd = mCommandProcesses[0];
mCommandProcesses.pop_front();
delete pd;
}
AlarmCalendar::terminateCalendars();
}
/******************************************************************************
* Return the one and only KAlarmApp instance.
* If it doesn't already exist, it is created first.
*/
KAlarmApp* KAlarmApp::getInstance()
{
if (!theInstance)
{
theInstance = new KAlarmApp;
if (mFatalError)
theInstance->quitFatal();
}
return theInstance;
}
/******************************************************************************
* (Re)initialise things which are tidied up/closed by quitIf().
* Reinitialisation can be necessary if session restoration finds nothing to
* restore and starts quitting the application, but KAlarm then starts up again
* before the application has exited.
* Reply = true if calendars were initialised successfully,
* false if they were already initialised, or if initialisation failed.
*/
bool KAlarmApp::initialise()
{
if (!mAlarmTimer)
{
mAlarmTimer = new QTimer(this);
mAlarmTimer->setSingleShot(true);
connect(mAlarmTimer, SIGNAL(timeout()), SLOT(checkNextDueAlarm()));
}
if (!AlarmCalendar::resources())
{
kDebug() << "initialising calendars";
if (AlarmCalendar::initialiseCalendars())
{
connect(AlarmCalendar::resources(), SIGNAL(earliestAlarmChanged()), SLOT(checkNextDueAlarm()));
#ifdef USE_AKONADI
connect(AlarmCalendar::resources(), SIGNAL(atLoginEventAdded(KAEvent)), SLOT(atLoginEventAdded(KAEvent)));
#endif
return true;
}
}
return false;
}
/******************************************************************************
* Restore the saved session if required.
*/
bool KAlarmApp::restoreSession()
{
if (!isSessionRestored())
return false;
if (mFatalError)
{
quitFatal();
return false;
}
// Process is being restored by session management.
kDebug() << "Restoring";
++mActiveCount;
// Create the session config object now.
// This is necessary since if initCheck() below causes calendars to be updated,
// the session config created after that points to an invalid file, resulting
// in no windows being restored followed by a later crash.
kapp->sessionConfig();
// When KAlarm is session restored, automatically set start-at-login to true.
Preferences::self()->readConfig();
Preferences::setAutoStart(true);
Preferences::setNoAutoStart(false);
Preferences::setAskAutoStart(true); // cancel any start-at-login prompt suppression
Preferences::self()->writeConfig();
if (!initCheck(true)) // open the calendar file (needed for main windows), don't process queue yet
{
--mActiveCount;
quitIf(1, true); // error opening the main calendar - quit
return false;
}
MainWindow* trayParent = 0;
for (int i = 1; KMainWindow::canBeRestored(i); ++i)
{
QString type = KMainWindow::classNameOfToplevel(i);
if (type == QLatin1String("MainWindow"))
{
MainWindow* win = MainWindow::create(true);
win->restore(i, false);
if (win->isHiddenTrayParent())
trayParent = win;
else
win->show();
}
else if (type == QLatin1String("MessageWin"))
{
MessageWin* win = new MessageWin;
win->restore(i, false);
if (win->isValid())
{
#ifdef USE_AKONADI
if (AkonadiModel::instance()->isCollectionTreeFetched())
#endif
win->show();
}
else
delete win;
}
}
// Try to display the system tray icon if it is configured to be shown
if (trayParent || wantShowInSystemTray())
{
if (!MainWindow::count())
kWarning() << "no main window to be restored!?";
else
{
displayTrayIcon(true, trayParent);
// Occasionally for no obvious reason, the main main window is
// shown when it should be hidden, so hide it just to be sure.
if (trayParent)
trayParent->hide();
}
}
--mActiveCount;
if (quitIf(0)) // quit if no windows are open
return false; // quitIf() can sometimes return, despite calling exit()
// Check whether the KDE time zone daemon is running (but don't hold up initialisation)
QTimer::singleShot(0, this, SLOT(checkKtimezoned()));
startProcessQueue(); // start processing the execution queue
return true;
}
/******************************************************************************
* Called for a KUniqueApplication when a new instance of the application is
* started.
*/
int KAlarmApp::newInstance()
{
kDebug();
if (mFatalError)
{
quitFatal();
return 1;
}
++mActiveCount;
int exitCode = 0; // default = success
static bool firstInstance = true;
bool dontRedisplay = false;
if (!firstInstance || !isSessionRestored())
{
CommandOptions options; // fetch and parse command line options
#ifndef NDEBUG
if (options.simulationTime().isValid())
KAlarm::setSimulatedSystemTime(options.simulationTime());
#endif
CommandOptions::Command command = options.command();
if (options.disableAll())
setAlarmsEnabled(false); // disable alarm monitoring
switch (command)
{
case CommandOptions::TRIGGER_EVENT:
case CommandOptions::CANCEL_EVENT:
{
// Display or delete the event with the specified event ID
EventFunc function = (command == CommandOptions::TRIGGER_EVENT) ? EVENT_TRIGGER : EVENT_CANCEL;
// Open the calendar, don't start processing execution queue yet,
// and wait for the Akonadi collection to be populated.
#ifdef USE_AKONADI
if (!initCheck(true, true, options.eventId().collectionId()))
#else
if (!initCheck(true))
#endif
exitCode = 1;
else
{
startProcessQueue(); // start processing the execution queue
dontRedisplay = true;
#ifdef USE_AKONADI
if (!handleEvent(options.eventId(), function, true))
#else
if (!handleEvent(options.eventId(), function))
#endif
{
#ifdef USE_AKONADI
CommandOptions::printError(i18nc("@info:shell", "%1: Event <resource>%2</resource> not found, or not unique", QLatin1String("--") + options.commandName(), options.eventId().eventId()));
#else
CommandOptions::printError(i18nc("@info:shell", "%1: Event <resource>%2</resource> not found", QLatin1String("--") + options.commandName(), options.eventId()));
#endif
exitCode = 1;
}
}
break;
}
case CommandOptions::LIST:
// Output a list of scheduled alarms to stdout.
// Open the calendar, don't start processing execution queue yet,
// and wait for all Akonadi collections to be populated.
mReadOnly = true; // don't need write access to calendars
#ifdef USE_AKONADI
if (!initCheck(true, true))
#else
if (!initCheck(true))
#endif
exitCode = 1;
else
{
dontRedisplay = true;
QStringList alarms = scheduledAlarmList();
for (int i = 0, count = alarms.count(); i < count; ++i)
std::cout << alarms[i].toUtf8().constData() << std::endl;
}
break;
case CommandOptions::EDIT:
// Edit a specified existing alarm.
// Open the calendar and wait for the Akonadi collection to be populated.
#ifdef USE_AKONADI
if (!initCheck(false, true, options.eventId().collectionId()))
#else
if (!initCheck())
#endif
exitCode = 1;
else if (!KAlarm::editAlarmById(options.eventId()))
{
#ifdef USE_AKONADI
CommandOptions::printError(i18nc("@info:shell", "%1: Event <resource>%2</resource> not found, or not editable", QLatin1String("--") + options.commandName(), options.eventId().eventId()));
#else
CommandOptions::printError(i18nc("@info:shell", "%1: Event <resource>%2</resource> not found, or not editable", QLatin1String("--") + options.commandName(), options.eventId()));
#endif
exitCode = 1;
}
break;
case CommandOptions::EDIT_NEW:
{
// Edit a new alarm, and optionally preset selected values
if (!initCheck())
exitCode = 1;
else
{
// Use AutoQPointer to guard against crash on application exit while
// the dialogue is still open. It prevents double deletion (both on
// deletion of parent, and on return from this function).
AutoQPointer<EditAlarmDlg> editDlg = EditAlarmDlg::create(false, options.editType());
if (options.alarmTime().isValid())
editDlg->setTime(options.alarmTime());
if (options.recurrence())
editDlg->setRecurrence(*options.recurrence(), options.subRepeatInterval(), options.subRepeatCount());
else if (options.flags() & KAEvent::REPEAT_AT_LOGIN)
editDlg->setRepeatAtLogin();
editDlg->setAction(options.editAction(), AlarmText(options.text()));
if (options.lateCancel())
editDlg->setLateCancel(options.lateCancel());
if (options.flags() & KAEvent::COPY_KORGANIZER)
editDlg->setShowInKOrganizer(true);
switch (options.editType())
{
case EditAlarmDlg::DISPLAY:
{
// EditAlarmDlg::create() always returns EditDisplayAlarmDlg for type = DISPLAY
EditDisplayAlarmDlg* dlg = qobject_cast<EditDisplayAlarmDlg*>(editDlg);
if (options.fgColour().isValid())
dlg->setFgColour(options.fgColour());
if (options.bgColour().isValid())
dlg->setBgColour(options.bgColour());
if (!options.audioFile().isEmpty()
|| options.flags() & (KAEvent::BEEP | KAEvent::SPEAK))
{
KAEvent::Flags flags = options.flags();
Preferences::SoundType type = (flags & KAEvent::BEEP) ? Preferences::Sound_Beep
: (flags & KAEvent::SPEAK) ? Preferences::Sound_Speak
: Preferences::Sound_File;
dlg->setAudio(type, options.audioFile(), options.audioVolume(), (flags & KAEvent::REPEAT_SOUND ? 0 : -1));
}
if (options.reminderMinutes())
dlg->setReminder(options.reminderMinutes(), (options.flags() & KAEvent::REMINDER_ONCE));
if (options.flags() & KAEvent::CONFIRM_ACK)
dlg->setConfirmAck(true);
if (options.flags() & KAEvent::AUTO_CLOSE)
dlg->setAutoClose(true);
break;
}
case EditAlarmDlg::COMMAND:
break;
case EditAlarmDlg::EMAIL:
{
// EditAlarmDlg::create() always returns EditEmailAlarmDlg for type = EMAIL
EditEmailAlarmDlg* dlg = qobject_cast<EditEmailAlarmDlg*>(editDlg);
if (options.fromID()
|| !options.addressees().isEmpty()
|| !options.subject().isEmpty()
|| !options.attachments().isEmpty())
dlg->setEmailFields(options.fromID(), options.addressees(), options.subject(), options.attachments());
if (options.flags() & KAEvent::EMAIL_BCC)
dlg->setBcc(true);
break;
}
case EditAlarmDlg::AUDIO:
{
// EditAlarmDlg::create() always returns EditAudioAlarmDlg for type = AUDIO
EditAudioAlarmDlg* dlg = qobject_cast<EditAudioAlarmDlg*>(editDlg);
if (!options.audioFile().isEmpty() || options.audioVolume() >= 0)
dlg->setAudio(options.audioFile(), options.audioVolume());
break;
}
case EditAlarmDlg::NO_TYPE:
break;
}
KAlarm::execNewAlarmDlg(editDlg);
}
break;
}
case CommandOptions::EDIT_NEW_PRESET:
// Edit a new alarm, preset with a template
if (!initCheck())
exitCode = 1;
else
KAlarm::editNewAlarm(options.templateName());
break;
case CommandOptions::NEW:
// Display a message or file, execute a command, or send an email
if (!initCheck()
|| !scheduleEvent(options.editAction(), options.text(), options.alarmTime(),
options.lateCancel(), options.flags(), options.bgColour(),
options.fgColour(), QFont(), options.audioFile(), options.audioVolume(),
options.reminderMinutes(), (options.recurrence() ? *options.recurrence() : KARecurrence()),
options.subRepeatInterval(), options.subRepeatCount(),
options.fromID(), options.addressees(),
options.subject(), options.attachments()))
exitCode = 1;
break;
case CommandOptions::TRAY:
// Display only the system tray icon
if (Preferences::showInSystemTray() && KSystemTrayIcon::isSystemTrayAvailable())
{
if (!initCheck() // open the calendar, start processing execution queue
|| !displayTrayIcon(true))
exitCode = 1;
break;
}
// fall through to NONE
case CommandOptions::NONE:
// No arguments - run interactively & display the main window
#ifndef NDEBUG
if (options.simulationTime().isValid() && !firstInstance)
break; // simulating time: don't open main window if already running
#endif
if (!initCheck())
exitCode = 1;
else
{
MainWindow* win = MainWindow::create();
if (command == CommandOptions::TRAY)
win->setWindowState(win->windowState() | Qt::WindowMinimized);
win->show();
}
break;
case CommandOptions::CMD_ERROR:
mReadOnly = true; // don't need write access to calendars
exitCode = 1;
break;
}
}
// If this is the first time through, redisplay any alarm message windows
// from last time.
if (firstInstance && !dontRedisplay && !exitCode)
{
/* First time through, so redisplay alarm message windows from last time.
* But it is possible for session restoration in some circumstances to
* not create any windows, in which case the alarm calendars will have
* been deleted - if so, don't try to do anything. (This has been known
* to happen under the Xfce desktop.)
*/
if (AlarmCalendar::resources())
{
#ifdef USE_AKONADI
if (AkonadiModel::instance()->isCollectionTreeFetched())
{
mRedisplayAlarms = false;
MessageWin::redisplayAlarms();
}
else
mRedisplayAlarms = true;
#else
MessageWin::redisplayAlarms();
#endif
}
}
--mActiveCount;
firstInstance = false;
// Quit the application if this was the last/only running "instance" of the program.
// Executing 'return' doesn't work very well since the program continues to
// run if no windows were created.
quitIf(exitCode);
// Check whether the KDE time zone daemon is running (but don't hold up initialisation)
QTimer::singleShot(0, this, SLOT(checkKtimezoned()));
return exitCode;
}
void KAlarmApp::checkKtimezoned()
{
// Check that the KDE time zone daemon is running
static bool done = false;
if (done)
return;
done = true;
#if KDE_IS_VERSION(4,5,70)
if (!KSystemTimeZones::isTimeZoneDaemonAvailable())
{
kDebug() << "ktimezoned not running: using UTC only";
KAMessageBox::information(MainWindow::mainMainWindow(),
i18nc("@info", "Time zones are not accessible:<nl/>KAlarm will use the UTC time zone.<nl/><nl/>(The KDE time zone service is not available:<nl/>check that <application>ktimezoned</application> is installed.)"),
QString(), QLatin1String("tzunavailable"));
}
#endif
}
/******************************************************************************
* Quit the program, optionally only if there are no more "instances" running.
* Reply = true if program exited.
*/
bool KAlarmApp::quitIf(int exitCode, bool force)
{
if (force)
{
// Quit regardless, except for message windows
mQuitting = true;
MainWindow::closeAll();
mQuitting = false;
displayTrayIcon(false);
if (MessageWin::instanceCount(true)) // ignore always-hidden windows (e.g. audio alarms)
return false;
}
else if (mQuitting)
return false; // MainWindow::closeAll() causes quitIf() to be called again
else
{
// Quit only if there are no more "instances" running
mPendingQuit = false;
if (mActiveCount > 0 || MessageWin::instanceCount(true)) // ignore always-hidden windows (e.g. audio alarms)
return false;
int mwcount = MainWindow::count();
MainWindow* mw = mwcount ? MainWindow::firstWindow() : 0;
if (mwcount > 1 || (mwcount && (!mw->isHidden() || !mw->isTrayParent())))
return false;
// There are no windows left except perhaps a main window which is a hidden
// tray icon parent, or an always-hidden message window.
if (mTrayWindow)
{
// There is a system tray icon.
// Don't exit unless the system tray doesn't seem to exist.
if (checkSystemTray())
return false;
}
if (!mActionQueue.isEmpty() || !mCommandProcesses.isEmpty())
{
// Don't quit yet if there are outstanding actions on the execution queue
mPendingQuit = true;
mPendingQuitCode = exitCode;
return false;
}
}
// This was the last/only running "instance" of the program, so exit completely.
// NOTE: Everything which is terminated/deleted here must where applicable
// be initialised in the initialise() method, in case KAlarm is
// started again before application exit completes!
kDebug() << exitCode << ": quitting";
MessageWin::stopAudio(true);
if (mCancelRtcWake)
{
KAlarm::setRtcWakeTime(0, 0);
KAlarm::deleteRtcWakeConfig();
}
delete mAlarmTimer; // prevent checking for alarms after deleting calendars
mAlarmTimer = 0;
mInitialised = false; // prevent processQueue() from running
AlarmCalendar::terminateCalendars();
exit(exitCode);
return true; // sometimes we actually get to here, despite calling exit()
}
/******************************************************************************
* Called when the Quit menu item is selected.
* Closes the system tray window and all main windows, but does not exit the
* program if other windows are still open.
*/
void KAlarmApp::doQuit(QWidget* parent)
{
kDebug();
if (KAMessageBox::warningCancelContinue(parent,
i18nc("@info", "Quitting will disable alarms (once any alarm message windows are closed)."),
QString(), KStandardGuiItem::quit(),
KStandardGuiItem::cancel(), Preferences::QUIT_WARN
) != KMessageBox::Continue)
return;
if (!KAlarm::checkRtcWakeConfig(true).isEmpty())
{
// A wake-on-suspend alarm is set
if (KAMessageBox::warningCancelContinue(parent,
i18nc("@info", "Quitting will cancel the scheduled Wake from Suspend."),
QString(), KStandardGuiItem::quit()
) != KMessageBox::Continue)
return;
mCancelRtcWake = true;
}
if (!Preferences::autoStart())
{
int option = KMessageBox::No;
if (!Preferences::autoStartChangedByUser())
{
option = KAMessageBox::questionYesNoCancel(parent,
i18nc("@info", "Do you want to start KAlarm at login?<nl/>"
"(Note that alarms will be disabled if KAlarm is not started.)"),
QString(), KStandardGuiItem::yes(), KStandardGuiItem::no(),
KStandardGuiItem::cancel(), Preferences::ASK_AUTO_START);
}
switch (option)
{
case KMessageBox::Yes:
Preferences::setAutoStart(true);
Preferences::setNoAutoStart(false);
break;
case KMessageBox::No:
Preferences::setNoAutoStart(true);
break;
case KMessageBox::Cancel:
default:
return;
}
Preferences::self()->writeConfig();
}
quitIf(0, true);
}
/******************************************************************************
* Called when the session manager is about to close down the application.
*/
void KAlarmApp::commitData(QSessionManager& sm)
{
mSessionClosingDown = true;
KUniqueApplication::commitData(sm);
mSessionClosingDown = false; // reset in case shutdown is cancelled
}
/******************************************************************************
* Display an error message for a fatal error. Prevent further actions since
* the program state is unsafe.
*/
void KAlarmApp::displayFatalError(const QString& message)
{
if (!mFatalError)
{
mFatalError = 1;
mFatalMessage = message;
if (theInstance)
QTimer::singleShot(0, theInstance, SLOT(quitFatal()));
}
}
/******************************************************************************
* Quit the program, once the fatal error message has been acknowledged.
*/
void KAlarmApp::quitFatal()
{
switch (mFatalError)
{
case 0:
case 2:
return;
case 1:
mFatalError = 2;
KMessageBox::error(0, mFatalMessage); // this is an application modal window
mFatalError = 3;
// fall through to '3'
case 3:
if (theInstance)
theInstance->quitIf(1, true);
break;
}
QTimer::singleShot(1000, this, SLOT(quitFatal()));
}
/******************************************************************************
* Called by the alarm timer when the next alarm is due.
* Also called when the execution queue has finished processing to check for the
* next alarm.
*/
void KAlarmApp::checkNextDueAlarm()
{
if (!mAlarmsEnabled)
return;
// Find the first alarm due
KAEvent* nextEvent = AlarmCalendar::resources()->earliestAlarm();
if (!nextEvent)
return; // there are no alarms pending
KDateTime nextDt = nextEvent->nextTrigger(KAEvent::ALL_TRIGGER).effectiveKDateTime();
KDateTime now = KDateTime::currentDateTime(Preferences::timeZone());
qint64 interval = now.secsTo_long(nextDt);
kDebug() << "now:" << qPrintable(now.toString(QLatin1String("%Y-%m-%d %H:%M %:Z"))) << ", next:" << qPrintable(nextDt.toString(QLatin1String("%Y-%m-%d %H:%M %:Z"))) << ", due:" << interval;
if (interval <= 0)
{
// Queue the alarm
queueAlarmId(*nextEvent);
kDebug() << nextEvent->id() << ": due now";
QTimer::singleShot(0, this, SLOT(processQueue()));
}
else
{
// No alarm is due yet, so set timer to wake us when it's due.
// Check for integer overflow before setting timer.
#ifndef HIBERNATION_SIGNAL
/* TODO: REPLACE THIS CODE WHEN A SYSTEM NOTIFICATION SIGNAL BECOMES
* AVAILABLE FOR WAKEUP FROM HIBERNATION.
* Re-evaluate the next alarm time every minute, in case the
* system clock jumps. The most common case when the clock jumps
* is when a laptop wakes from hibernation. If timers were left to
* run, they would trigger late by the length of time the system
* was asleep.
*/
if (interval > 60) // 1 minute
interval = 60;
#endif
interval *= 1000;
if (interval > INT_MAX)
interval = INT_MAX;
kDebug() << nextEvent->id() << "wait" << interval/1000 << "seconds";
mAlarmTimer->start(static_cast<int>(interval));
}
}
/******************************************************************************
* Called by the alarm timer when the next alarm is due.
* Also called when the execution queue has finished processing to check for the
* next alarm.
*/
void KAlarmApp::queueAlarmId(const KAEvent& event)
{
#ifdef USE_AKONADI
EventId id(event);
#else
const QString id(event.id());
#endif
for (int i = 0, end = mActionQueue.count(); i < end; ++i)
{
if (mActionQueue[i].function == EVENT_HANDLE && mActionQueue[i].eventId == id)
return; // the alarm is already queued
}
mActionQueue.enqueue(ActionQEntry(EVENT_HANDLE, id));
}
/******************************************************************************
* Start processing the execution queue.
*/
void KAlarmApp::startProcessQueue()
{
if (!mInitialised)
{
kDebug();
mInitialised = true;
QTimer::singleShot(0, this, SLOT(processQueue())); // process anything already queued
}
}
/******************************************************************************
* The main processing loop for KAlarm.
* All KAlarm operations involving opening or updating calendar files are called
* from this loop to ensure that only one operation is active at any one time.
* This precaution is necessary because KAlarm's activities are mostly
* asynchronous, being in response to D-Bus calls from other programs or timer
* events, any of which can be received in the middle of performing another
* operation. If a calendar file is opened or updated while another calendar
* operation is in progress, the program has been observed to hang, or the first
* calendar call has failed with data loss - clearly unacceptable!!
*/
void KAlarmApp::processQueue()
{
if (mInitialised && !mProcessingQueue)
{
kDebug();
mProcessingQueue = true;
// Refresh alarms if that's been queued
KAlarm::refreshAlarmsIfQueued();
if (!mLoginAlarmsDone)
{
// Queue all at-login alarms once only, at program start-up.
// First, cancel any scheduled reminders or deferrals for them,
// since these will be superseded by the new at-login trigger.
KAEvent::List events = AlarmCalendar::resources()->atLoginAlarms();
for (int i = 0, end = events.count(); i < end; ++i)
{
KAEvent event = *events[i];
if (!cancelReminderAndDeferral(event))
{
if (mAlarmsEnabled)
queueAlarmId(event);
}
}
mLoginAlarmsDone = true;
}
// Process queued events
while (!mActionQueue.isEmpty())
{
ActionQEntry& entry = mActionQueue.head();
if (entry.eventId.isEmpty())
{
// It's a new alarm
switch (entry.function)
{
case EVENT_TRIGGER:
execAlarm(entry.event, entry.event.firstAlarm(), false);
break;
case EVENT_HANDLE:
KAlarm::addEvent(entry.event, 0, 0, KAlarm::ALLOW_KORG_UPDATE | KAlarm::NO_RESOURCE_PROMPT);
break;
case EVENT_CANCEL:
break;
}
}
else
handleEvent(entry.eventId, entry.function);
mActionQueue.dequeue();
}
// Purge the default archived alarms resource if it's time to do so
if (mPurgeDaysQueued >= 0)
{
KAlarm::purgeArchive(mPurgeDaysQueued);
mPurgeDaysQueued = -1;
}
// Now that the queue has been processed, quit if a quit was queued
if (mPendingQuit)
{
if (quitIf(mPendingQuitCode))
return; // quitIf() can sometimes return, despite calling exit()
}
mProcessingQueue = false;
// Schedule the application to be woken when the next alarm is due
checkNextDueAlarm();
}
}
#ifdef USE_AKONADI
/******************************************************************************
* Called when a repeat-at-login alarm has been added externally.
* Queues the alarm for triggering.
* First, cancel any scheduled reminder or deferral for it, since these will be
* superseded by the new at-login trigger.
*/
void KAlarmApp::atLoginEventAdded(const KAEvent& event)
{
KAEvent ev = event;
if (!cancelReminderAndDeferral(ev))
{
if (mAlarmsEnabled)
{
mActionQueue.enqueue(ActionQEntry(EVENT_HANDLE, EventId(ev)));
if (mInitialised)
QTimer::singleShot(0, this, SLOT(processQueue()));
}
}
}
#endif
/******************************************************************************
* Called when the system tray main window is closed.
*/
void KAlarmApp::removeWindow(TrayWindow*)
{
mTrayWindow = 0;
}
/******************************************************************************
* Display or close the system tray icon.
*/
bool KAlarmApp::displayTrayIcon(bool show, MainWindow* parent)
{
kDebug();
static bool creating = false;
if (show)
{
if (!mTrayWindow && !creating)
{
if (!KSystemTrayIcon::isSystemTrayAvailable())
return false;
if (!MainWindow::count())
{
// We have to have at least one main window to act
// as parent to the system tray icon (even if the
// window is hidden).
creating = true; // prevent main window constructor from creating an additional tray icon
parent = MainWindow::create();
creating = false;
}
mTrayWindow = new TrayWindow(parent ? parent : MainWindow::firstWindow());
connect(mTrayWindow, SIGNAL(deleted()), SIGNAL(trayIconToggled()));
emit trayIconToggled();
if (!checkSystemTray())
quitIf(0); // exit the application if there are no open windows
}
}
else
{
delete mTrayWindow;
mTrayWindow = 0;
}
return true;
}
/******************************************************************************
* Check whether the system tray icon has been housed in the system tray.
*/
bool KAlarmApp::checkSystemTray()
{
if (!mTrayWindow)
return true;
if (KSystemTrayIcon::isSystemTrayAvailable() == mNoSystemTray)
{
kDebug() << "changed ->" << mNoSystemTray;
mNoSystemTray = !mNoSystemTray;
// Store the new setting in the config file, so that if KAlarm exits it will
// restart with the correct default.
KConfigGroup config(KGlobal::config(), "General");
config.writeEntry("NoSystemTray", mNoSystemTray);
config.sync();
// Update other settings
slotShowInSystemTrayChanged();
}
return !mNoSystemTray;
}
/******************************************************************************
* Return the main window associated with the system tray icon.
*/
MainWindow* KAlarmApp::trayMainWindow() const
{
return mTrayWindow ? mTrayWindow->assocMainWindow() : 0;
}
/******************************************************************************
* Called when the show-in-system-tray preference setting has changed, to show
* or hide the system tray icon.
*/
void KAlarmApp::slotShowInSystemTrayChanged()
{
bool newShowInSysTray = wantShowInSystemTray();
if (newShowInSysTray != mOldShowInSystemTray)
{
// The system tray run mode has changed
++mActiveCount; // prevent the application from quitting
MainWindow* win = mTrayWindow ? mTrayWindow->assocMainWindow() : 0;
delete mTrayWindow; // remove the system tray icon if it is currently shown
mTrayWindow = 0;
mOldShowInSystemTray = newShowInSysTray;
if (newShowInSysTray)
{
// Show the system tray icon
displayTrayIcon(true);
}
else
{
// Stop showing the system tray icon
if (win && win->isHidden())
{
if (MainWindow::count() > 1)
delete win;
else
{
win->setWindowState(win->windowState() | Qt::WindowMinimized);
win->show();
}
}
}
--mActiveCount;
}
}
/******************************************************************************
* Called when the start-of-day time preference setting has changed.
* Change alarm times for date-only alarms.
*/
void KAlarmApp::changeStartOfDay()
{
DateTime::setStartOfDay(Preferences::startOfDay());
KAEvent::setStartOfDay(Preferences::startOfDay());
AlarmCalendar::resources()->adjustStartOfDay();
}
/******************************************************************************
* Called when the default alarm message font preference setting has changed.
* Notify KAEvent.
*/
void KAlarmApp::slotMessageFontChanged(const QFont& font)
{
KAEvent::setDefaultFont(font);
}
/******************************************************************************
* Called when the working time preference settings have changed.
* Notify KAEvent.
*/
void KAlarmApp::slotWorkTimeChanged(const QTime& start, const QTime& end, const QBitArray& days)
{
KAEvent::setWorkTime(days, start, end);
}
/******************************************************************************
* Called when the holiday region preference setting has changed.
* Notify KAEvent.
*/
void KAlarmApp::slotHolidaysChanged(const KHolidays::HolidayRegion& holidays)
{
KAEvent::setHolidays(holidays);
}
/******************************************************************************
* Called when the date for February 29th recurrences has changed in the
* preferences settings.
*/
void KAlarmApp::slotFeb29TypeChanged(Preferences::Feb29Type type)
{
KARecurrence::Feb29Type rtype;
switch (type)
{
default:
case Preferences::Feb29_None: rtype = KARecurrence::Feb29_None; break;
case Preferences::Feb29_Feb28: rtype = KARecurrence::Feb29_Feb28; break;
case Preferences::Feb29_Mar1: rtype = KARecurrence::Feb29_Mar1; break;
}
KARecurrence::setDefaultFeb29Type(rtype);
}
/******************************************************************************
* Return whether the program is configured to be running in the system tray.
*/
bool KAlarmApp::wantShowInSystemTray() const
{
return Preferences::showInSystemTray() && KSystemTrayIcon::isSystemTrayAvailable();
}
/******************************************************************************
* Called when all calendars have been fetched at startup.
* Check whether there are any writable active calendars, and if not, warn the
* user.
*/
void KAlarmApp::checkWritableCalendar()
{
if (mReadOnly)
return; // don't need write access to calendars
#ifdef USE_AKONADI
bool treeFetched = AkonadiModel::instance()->isCollectionTreeFetched();
if (treeFetched && mRedisplayAlarms)
{
mRedisplayAlarms = false;
MessageWin::redisplayAlarms();
}
if (!treeFetched
|| !AkonadiModel::instance()->isMigrationCompleted())
return;
#endif
static bool done = false;
if (done)
return;
done = true;
kDebug();
// Find whether there are any writable active alarm calendars
#ifdef USE_AKONADI
bool active = !CollectionControlModel::enabledCollections(CalEvent::ACTIVE, true).isEmpty();
#else
bool active = AlarmResources::instance()->activeCount(CalEvent::ACTIVE, true);
#endif
if (!active)
{
kWarning() << "No writable active calendar";
KAMessageBox::information(MainWindow::mainMainWindow(),
i18nc("@info", "Alarms cannot be created or updated, because no writable active alarm calendar is enabled.<nl/><nl/>"
"To fix this, use <interface>View | Show Calendars</interface> to check or change calendar statuses."),
QString(), QLatin1String("noWritableCal"));
}
}
#ifdef USE_AKONADI
/******************************************************************************
* Called when a new collection has been added, or when a collection has been
* set as the standard collection for its type.
* If it is the default archived calendar, purge its old alarms if necessary.
*/
void KAlarmApp::purgeNewArchivedDefault(const Akonadi::Collection& collection)
{
Akonadi::Collection col(collection);
if (CollectionControlModel::isStandard(col, CalEvent::ARCHIVED))
{
// Allow time (1 minute) for AkonadiModel to be populated with the
// collection's events before purging it.
kDebug() << collection.id() << ": standard archived...";
QTimer::singleShot(60000, this, SLOT(purgeAfterDelay()));
}
}
/******************************************************************************
* Called after a delay, after the default archived calendar has been added to
* AkonadiModel.
* Purge old alarms from it if necessary.
*/
void KAlarmApp::purgeAfterDelay()
{
if (mArchivedPurgeDays >= 0)
purge(mArchivedPurgeDays);
else
setArchivePurgeDays();
}
#endif
/******************************************************************************
* Called when the length of time to keep archived alarms changes in KAlarm's
* preferences.
* Set the number of days to keep archived alarms.
* Alarms which are older are purged immediately, and at the start of each day.
*/
void KAlarmApp::setArchivePurgeDays()
{
int newDays = Preferences::archivedKeepDays();
if (newDays != mArchivedPurgeDays)
{
int oldDays = mArchivedPurgeDays;
mArchivedPurgeDays = newDays;
if (mArchivedPurgeDays <= 0)
StartOfDayTimer::disconnect(this);
if (mArchivedPurgeDays < 0)
return; // keep indefinitely, so don't purge
if (oldDays < 0 || mArchivedPurgeDays < oldDays)
{
// Alarms are now being kept for less long, so purge them
purge(mArchivedPurgeDays);
if (!mArchivedPurgeDays)
return; // don't archive any alarms
}
// Start the purge timer to expire at the start of the next day
// (using the user-defined start-of-day time).
StartOfDayTimer::connect(this, SLOT(slotPurge()));
}
}
/******************************************************************************
* Purge all archived events from the calendar whose end time is longer ago than
* 'daysToKeep'. All events are deleted if 'daysToKeep' is zero.
*/
void KAlarmApp::purge(int daysToKeep)
{
if (mPurgeDaysQueued < 0 || daysToKeep < mPurgeDaysQueued)
mPurgeDaysQueued = daysToKeep;
// Do the purge once any other current operations are completed
processQueue();
}
/******************************************************************************
* Output a list of pending alarms, with their next scheduled occurrence.
*/
QStringList KAlarmApp::scheduledAlarmList()
{
#ifdef USE_AKONADI
QVector<KAEvent> events = KAlarm::getSortedActiveEvents(this);
#else
KAEvent::List events = KAlarm::getSortedActiveEvents();
#endif
QStringList alarms;
for (int i = 0, count = events.count(); i < count; ++i)
{
#ifdef USE_AKONADI
KAEvent* event = &events[i];
#else
KAEvent* event = events[i];
#endif
KDateTime dateTime = event->nextTrigger(KAEvent::DISPLAY_TRIGGER).effectiveKDateTime().toLocalZone();
#ifdef USE_AKONADI
Akonadi::Collection c(event->collectionId());
AkonadiModel::instance()->refresh(c);
QString text(c.resource() + QLatin1String(":"));
#else
QString text;
#endif
text += event->id() + QLatin1Char(' ')
+ dateTime.toString(QLatin1String("%Y%m%dT%H%M "))
+ AlarmText::summary(*event, 1);
alarms << text;
}
return alarms;
}
/******************************************************************************
* Enable or disable alarm monitoring.
*/
void KAlarmApp::setAlarmsEnabled(bool enabled)
{
if (enabled != mAlarmsEnabled)
{
mAlarmsEnabled = enabled;
emit alarmEnabledToggled(enabled);
if (!enabled)
KAlarm::cancelRtcWake(0);
else if (!mProcessingQueue)
checkNextDueAlarm();
}
}
/******************************************************************************
* Spread or collect alarm message and error message windows.
*/
void KAlarmApp::spreadWindows(bool spread)
{
spread = MessageWin::spread(spread);
emit spreadWindowsToggled(spread);
}
/******************************************************************************
* Called when the spread status of message windows changes.
* Set the 'spread windows' action state.
*/
void KAlarmApp::setSpreadWindowsState(bool spread)
{
emit spreadWindowsToggled(spread);
}
/******************************************************************************
* Called to schedule a new alarm, either in response to a DCOP notification or
* to command line options.
* Reply = true unless there was a parameter error or an error opening calendar file.
*/
bool KAlarmApp::scheduleEvent(KAEvent::SubAction action, const QString& text, const KDateTime& dateTime,
int lateCancel, KAEvent::Flags flags, const QColor& bg, const QColor& fg,
const QFont& font, const QString& audioFile, float audioVolume, int reminderMinutes,
const KARecurrence& recurrence, int repeatInterval, int repeatCount,
#ifdef USE_AKONADI
uint mailFromID, const KCalCore::Person::List& mailAddresses,
#else
uint mailFromID, const QList<KCal::Person>& mailAddresses,
#endif
const QString& mailSubject, const QStringList& mailAttachments)
{
kDebug() << text;
if (!dateTime.isValid())
return false;
KDateTime now = KDateTime::currentUtcDateTime();
if (lateCancel && dateTime < now.addSecs(-maxLateness(lateCancel)))
return true; // alarm time was already archived too long ago
KDateTime alarmTime = dateTime;
// Round down to the nearest minute to avoid scheduling being messed up
if (!dateTime.isDateOnly())
alarmTime.setTime(QTime(alarmTime.time().hour(), alarmTime.time().minute(), 0));
KAEvent event(alarmTime, text, bg, fg, font, action, lateCancel, flags, true);
if (reminderMinutes)
{
bool onceOnly = flags & KAEvent::REMINDER_ONCE;
event.setReminder(reminderMinutes, onceOnly);
}
if (!audioFile.isEmpty())
event.setAudioFile(audioFile, audioVolume, -1, 0, (flags & KAEvent::REPEAT_SOUND) ? 0 : -1);
if (!mailAddresses.isEmpty())
event.setEmail(mailFromID, mailAddresses, mailSubject, mailAttachments);
event.setRecurrence(recurrence);
event.setFirstRecurrence();
event.setRepetition(Repetition(repeatInterval, repeatCount - 1));
event.endChanges();
if (alarmTime <= now)
{
// Alarm is due for display already.
// First execute it once without adding it to the calendar file.
if (!mInitialised)
mActionQueue.enqueue(ActionQEntry(event, EVENT_TRIGGER));
else
execAlarm(event, event.firstAlarm(), false);
// If it's a recurring alarm, reschedule it for its next occurrence
if (!event.recurs()
|| event.setNextOccurrence(now) == KAEvent::NO_OCCURRENCE)
return true;
// It has recurrences in the future
}
// Queue the alarm for insertion into the calendar file
mActionQueue.enqueue(ActionQEntry(event));
if (mInitialised)
QTimer::singleShot(0, this, SLOT(processQueue()));
return true;
}
/******************************************************************************
* Called in response to a D-Bus request to trigger or cancel an event.
* Optionally display the event. Delete the event from the calendar file and
* from every main window instance.
*/
#ifdef USE_AKONADI
bool KAlarmApp::dbusHandleEvent(const EventId& eventID, EventFunc function)
#else
bool KAlarmApp::dbusHandleEvent(const QString& eventID, EventFunc function)
#endif
{
kDebug() << eventID;
mActionQueue.append(ActionQEntry(function, eventID));
if (mInitialised)
QTimer::singleShot(0, this, SLOT(processQueue()));
return true;
}
/******************************************************************************
* Called in response to a D-Bus request to list all pending alarms.
*/
QString KAlarmApp::dbusList()
{
kDebug();
return scheduledAlarmList().join(QLatin1String("\n")) + QLatin1Char('\n');
}
/******************************************************************************
* Either:
* a) Display the event and then delete it if it has no outstanding repetitions.
* b) Delete the event.
* c) Reschedule the event for its next repetition. If none remain, delete it.
* If the event is deleted, it is removed from the calendar file and from every
* main window instance.
* Reply = false if event ID not found, or if more than one event with the same
* ID is found.
*/
#ifdef USE_AKONADI
bool KAlarmApp::handleEvent(const EventId& id, EventFunc function, bool checkDuplicates)
#else
bool KAlarmApp::handleEvent(const QString& eventID, EventFunc function)
#endif
{
// Delete any expired wake-on-suspend config data
KAlarm::checkRtcWakeConfig();
#ifdef USE_AKONADI
const QString eventID(id.eventId());
KAEvent* event = AlarmCalendar::resources()->event(id, checkDuplicates);
if (!event)
{
if (id.collectionId() != -1)
kWarning() << "Event ID not found, or duplicated:" << eventID;
else
kWarning() << "Event ID not found:" << eventID;
return false;
}
#else
KAEvent* event = AlarmCalendar::resources()->event(eventID);
if (!event)
{
kWarning() << "Event ID not found:" << eventID;
return false;
}
#endif
switch (function)
{
case EVENT_CANCEL:
kDebug() << eventID << ", CANCEL";
KAlarm::deleteEvent(*event, true);
break;
case EVENT_TRIGGER: // handle it if it's due, else execute it regardless
case EVENT_HANDLE: // handle it if it's due
{
KDateTime now = KDateTime::currentUtcDateTime();
kDebug() << eventID << "," << (function==EVENT_TRIGGER?"TRIGGER:":"HANDLE:") << qPrintable(now.dateTime().toString(QLatin1String("yyyy-MM-dd hh:mm"))) << "UTC";
bool updateCalAndDisplay = false;
bool alarmToExecuteValid = false;
KAAlarm alarmToExecute;
bool restart = false;
// Check all the alarms in turn.
// Note that the main alarm is fetched before any other alarms.
for (KAAlarm alarm = event->firstAlarm();
alarm.isValid();
alarm = (restart ? event->firstAlarm() : event->nextAlarm(alarm)), restart = false)
{
// Check if the alarm is due yet.
KDateTime nextDT = alarm.dateTime(true).effectiveKDateTime();
int secs = nextDT.secsTo(now);
if (secs < 0)
{
// The alarm appears to be in the future.
// Check if it's an invalid local clock time during a daylight
// saving time shift, which has actually passed.
if (alarm.dateTime().timeSpec() != KDateTime::ClockTime
|| nextDT > now.toTimeSpec(KDateTime::ClockTime))
{
// This alarm is definitely not due yet
kDebug() << "Alarm" << alarm.type() << "at" << nextDT.dateTime() << ": not due";
continue;
}
}
bool reschedule = false;
bool rescheduleWork = false;
if ((event->workTimeOnly() || event->holidaysExcluded()) && !alarm.deferred())
{
// The alarm is restricted to working hours and/or non-holidays
// (apart from deferrals). This needs to be re-evaluated every
// time it triggers, since working hours could change.
if (alarm.dateTime().isDateOnly())
{
KDateTime dt(nextDT);
dt.setDateOnly(true);
reschedule = !event->isWorkingTime(dt);
}
else
reschedule = !event->isWorkingTime(nextDT);
rescheduleWork = reschedule;
if (reschedule)
kDebug() << "Alarm" << alarm.type() << "at" << nextDT.dateTime() << ": not during working hours";
}
if (!reschedule && alarm.repeatAtLogin())
{
// Alarm is to be displayed at every login.
kDebug() << "REPEAT_AT_LOGIN";
// Check if the main alarm is already being displayed.
// (We don't want to display both at the same time.)
if (alarmToExecute.isValid())
continue;
// Set the time to display if it's a display alarm
alarm.setTime(now);
}
if (!reschedule && event->lateCancel())
{
// Alarm is due, and it is to be cancelled if too late.
kDebug() << "LATE_CANCEL";
bool cancel = false;
if (alarm.dateTime().isDateOnly())
{
// The alarm has no time, so cancel it if its date is too far past
int maxlate = event->lateCancel() / 1440; // maximum lateness in days
KDateTime limit(DateTime(nextDT.addDays(maxlate + 1)).effectiveKDateTime());
if (now >= limit)
{
// It's too late to display the scheduled occurrence.
// Find the last previous occurrence of the alarm.
DateTime next;
KAEvent::OccurType type = event->previousOccurrence(now, next, true);
switch (type & ~KAEvent::OCCURRENCE_REPEAT)
{
case KAEvent::FIRST_OR_ONLY_OCCURRENCE:
case KAEvent::RECURRENCE_DATE:
case KAEvent::RECURRENCE_DATE_TIME:
case KAEvent::LAST_RECURRENCE:
limit.setDate(next.date().addDays(maxlate + 1));
if (now >= limit)
{
if (type == KAEvent::LAST_RECURRENCE
|| (type == KAEvent::FIRST_OR_ONLY_OCCURRENCE && !event->recurs()))
cancel = true; // last occurrence (and there are no repetitions)
else
reschedule = true;
}
break;
case KAEvent::NO_OCCURRENCE:
default:
reschedule = true;
break;
}
}
}
else
{
// The alarm is timed. Allow it to be the permitted amount late before cancelling it.
int maxlate = maxLateness(event->lateCancel());
if (secs > maxlate)
{
// It's over the maximum interval late.
// Find the most recent occurrence of the alarm.
DateTime next;
KAEvent::OccurType type = event->previousOccurrence(now, next, true);
switch (type & ~KAEvent::OCCURRENCE_REPEAT)
{
case KAEvent::FIRST_OR_ONLY_OCCURRENCE:
case KAEvent::RECURRENCE_DATE:
case KAEvent::RECURRENCE_DATE_TIME:
case KAEvent::LAST_RECURRENCE:
if (next.effectiveKDateTime().secsTo(now) > maxlate)
{
if (type == KAEvent::LAST_RECURRENCE
|| (type == KAEvent::FIRST_OR_ONLY_OCCURRENCE && !event->recurs()))
cancel = true; // last occurrence (and there are no repetitions)
else
reschedule = true;
}
break;
case KAEvent::NO_OCCURRENCE:
default:
reschedule = true;
break;
}
}
}
if (cancel)
{
// All recurrences are finished, so cancel the event
event->setArchive();
if (cancelAlarm(*event, alarm.type(), false))
return true; // event has been deleted
updateCalAndDisplay = true;
continue;
}
}
if (reschedule)
{
// The latest repetition was too long ago, so schedule the next one
switch (rescheduleAlarm(*event, alarm, false, (rescheduleWork ? nextDT : KDateTime())))
{
case 1:
// A working-time-only alarm has been rescheduled and the
// rescheduled time is already due. Start processing the
// event again.
alarmToExecuteValid = false;
restart = true;
break;
case -1:
return true; // event has been deleted
default:
break;
}
updateCalAndDisplay = true;
continue;
}
if (!alarmToExecuteValid)
{
kDebug() << "Alarm" << alarm.type() << ": execute";
alarmToExecute = alarm; // note the alarm to be displayed
alarmToExecuteValid = true; // only trigger one alarm for the event
}
else
kDebug() << "Alarm" << alarm.type() << ": skip";
}
// If there is an alarm to execute, do this last after rescheduling/cancelling
// any others. This ensures that the updated event is only saved once to the calendar.
if (alarmToExecute.isValid())
execAlarm(*event, alarmToExecute, true, !alarmToExecute.repeatAtLogin());
else
{
if (function == EVENT_TRIGGER)
{
// The alarm is to be executed regardless of whether it's due.
// Only trigger one alarm from the event - we don't want multiple
// identical messages, for example.
KAAlarm alarm = event->firstAlarm();
if (alarm.isValid())
execAlarm(*event, alarm, false);
}
if (updateCalAndDisplay)
KAlarm::updateEvent(*event); // update the window lists and calendar file
else if (function != EVENT_TRIGGER) { kDebug() << "No action"; }
}
break;
}
}
return true;
}
/******************************************************************************
* Called when an alarm action has completed, to perform any post-alarm actions.
*/
void KAlarmApp::alarmCompleted(const KAEvent& event)
{
if (!event.postAction().isEmpty())
{
// doShellCommand() will error if the user is not authorised to run
// shell commands.
QString command = event.postAction();
kDebug() << event.id() << ":" << command;
doShellCommand(command, event, 0, ProcData::POST_ACTION);
}
}
/******************************************************************************
* Reschedule the alarm for its next recurrence after now. If none remain,
* delete it. If the alarm is deleted and it is the last alarm for its event,
* the event is removed from the calendar file and from every main window
* instance.
* If 'nextDt' is valid, the event is rescheduled for the next non-working
* time occurrence after that.
* Reply = 1 if 'nextDt' is valid and the rescheduled event is already due
* = -1 if the event has been deleted
* = 0 otherwise.
*/
int KAlarmApp::rescheduleAlarm(KAEvent& event, const KAAlarm& alarm, bool updateCalAndDisplay, const KDateTime& nextDt)
{
kDebug() << "Alarm type:" << alarm.type();
int reply = 0;
bool update = false;
event.startChanges();
if (alarm.repeatAtLogin())
{
// Leave an alarm which repeats at every login until its main alarm triggers
if (!event.reminderActive() && event.reminderMinutes() < 0)
{
// Executing an at-login alarm: first schedule the reminder
// which occurs AFTER the main alarm.
event.activateReminderAfter(KDateTime::currentUtcDateTime());
update = true;
}
}
else if (alarm.isReminder() || alarm.deferred())
{
// It's a reminder alarm or an extra deferred alarm, so delete it
event.removeExpiredAlarm(alarm.type());
update = true;
}
else
{
// Reschedule the alarm for its next occurrence.
bool cancelled = false;
DateTime last = event.mainDateTime(false); // note this trigger time
if (last != event.mainDateTime(true))
last = DateTime(); // but ignore sub-repetition triggers
bool next = nextDt.isValid();
KDateTime next_dt = nextDt;
KDateTime now = KDateTime::currentUtcDateTime();
do
{
KAEvent::OccurType type = event.setNextOccurrence(next ? next_dt : now);
switch (type)
{
case KAEvent::NO_OCCURRENCE:
// All repetitions are finished, so cancel the event
kDebug() << "No occurrence";
if (event.reminderMinutes() < 0 && last.isValid()
&& alarm.type() != KAAlarm::AT_LOGIN_ALARM && !event.mainExpired())
{
// Set the reminder which is now due after the last main alarm trigger.
// Note that at-login reminders are scheduled in execAlarm().
event.activateReminderAfter(last);
updateCalAndDisplay = true;
}
if (cancelAlarm(event, alarm.type(), updateCalAndDisplay))
return -1;
break;
default:
if (!(type & KAEvent::OCCURRENCE_REPEAT))
break;
// Next occurrence is a repeat, so fall through to recurrence handling
case KAEvent::RECURRENCE_DATE:
case KAEvent::RECURRENCE_DATE_TIME:
case KAEvent::LAST_RECURRENCE:
// The event is due by now and repetitions still remain, so rewrite the event
if (updateCalAndDisplay)
update = true;
break;
case KAEvent::FIRST_OR_ONLY_OCCURRENCE:
// The first occurrence is still due?!?, so don't do anything
break;
}
if (cancelled)
break;
if (event.deferred())
{
// Just in case there's also a deferred alarm, ensure it's removed
event.removeExpiredAlarm(KAAlarm::DEFERRED_ALARM);
update = true;
}
if (next)
{
// The alarm is restricted to working hours and/or non-holidays.
// Check if the calculated next time is valid.
next_dt = event.mainDateTime(true).effectiveKDateTime();
if (event.mainDateTime(false).isDateOnly())
{
KDateTime dt(next_dt);
dt.setDateOnly(true);
next = !event.isWorkingTime(dt);
}
else
next = !event.isWorkingTime(next_dt);
}
} while (next && next_dt <= now);
reply = (!cancelled && next_dt.isValid() && (next_dt <= now)) ? 1 : 0;
if (event.reminderMinutes() < 0 && last.isValid()
&& alarm.type() != KAAlarm::AT_LOGIN_ALARM)
{
// Set the reminder which is now due after the last main alarm trigger.
// Note that at-login reminders are scheduled in execAlarm().
event.activateReminderAfter(last);
}
}
event.endChanges();
if (update)
KAlarm::updateEvent(event); // update the window lists and calendar file
return reply;
}
/******************************************************************************
* Delete the alarm. If it is the last alarm for its event, the event is removed
* from the calendar file and from every main window instance.
* Reply = true if event has been deleted.
*/
bool KAlarmApp::cancelAlarm(KAEvent& event, KAAlarm::Type alarmType, bool updateCalAndDisplay)
{
kDebug();
if (alarmType == KAAlarm::MAIN_ALARM && !event.displaying() && event.toBeArchived())
{
// The event is being deleted. Save it in the archived resources first.
KAEvent ev(event);
KAlarm::addArchivedEvent(ev);
}
event.removeExpiredAlarm(alarmType);
if (!event.alarmCount())
{
KAlarm::deleteEvent(event, false);
return true;
}
if (updateCalAndDisplay)
KAlarm::updateEvent(event); // update the window lists and calendar file
return false;
}
/******************************************************************************
* Cancel any reminder or deferred alarms in an repeat-at-login event.
* This should be called when the event is first loaded.
* If there are no more alarms left in the event, the event is removed from the
* calendar file and from every main window instance.
* Reply = true if event has been deleted.
*/
bool KAlarmApp::cancelReminderAndDeferral(KAEvent& event)
{
return cancelAlarm(event, KAAlarm::REMINDER_ALARM, false)
|| cancelAlarm(event, KAAlarm::DEFERRED_REMINDER_ALARM, false)
|| cancelAlarm(event, KAAlarm::DEFERRED_ALARM, true);
}
/******************************************************************************
* Execute an alarm by displaying its message or file, or executing its command.
* Reply = ShellProcess instance if a command alarm
* = MessageWin if an audio alarm
* != 0 if successful
* = -1 if execution has not completed
* = 0 if the alarm is disabled, or if an error message was output.
*/
void* KAlarmApp::execAlarm(KAEvent& event, const KAAlarm& alarm, bool reschedule, bool allowDefer, bool noPreAction)
{
if (!mAlarmsEnabled || !event.enabled())
{
// The event (or all events) is disabled
kDebug() << event.id() << ": disabled";
if (reschedule)
rescheduleAlarm(event, alarm, true);
return 0;
}
void* result = (void*)1;
event.setArchive();
switch (alarm.action())
{
case KAAlarm::COMMAND:
if (!event.commandDisplay())
{
// execCommandAlarm() will error if the user is not authorised
// to run shell commands.
result = execCommandAlarm(event, alarm);
if (reschedule)
rescheduleAlarm(event, alarm, true);
break;
}
// fall through to MESSAGE
case KAAlarm::MESSAGE:
case KAAlarm::FILE:
{
// Display a message, file or command output, provided that the same event
// isn't already being displayed
#ifdef USE_AKONADI
MessageWin* win = MessageWin::findEvent(EventId(event));
#else
MessageWin* win = MessageWin::findEvent(event.id());
#endif
// Find if we're changing a reminder message to the real message
bool reminder = (alarm.type() & KAAlarm::REMINDER_ALARM);
bool replaceReminder = !reminder && win && (win->alarmType() & KAAlarm::REMINDER_ALARM);
if (!reminder
&& (!event.deferred() || (event.extraActionOptions() & KAEvent::ExecPreActOnDeferral))
&& (replaceReminder || !win) && !noPreAction
&& !event.preAction().isEmpty())
{
// It's not a reminder alarm, and it's not a deferred alarm unless the
// pre-alarm action applies to deferred alarms, and there is no message
// window (other than a reminder window) currently displayed for this
// alarm, and we need to execute a command before displaying the new window.
//
// NOTE: The pre-action is not executed for a recurring alarm if an
// alarm message window for a previous occurrence is still visible.
// Check whether the command is already being executed for this alarm.
for (int i = 0, end = mCommandProcesses.count(); i < end; ++i)
{
ProcData* pd = mCommandProcesses[i];
if (pd->event->id() == event.id() && (pd->flags & ProcData::PRE_ACTION))
{
kDebug() << "Already executing pre-DISPLAY command";
return pd->process; // already executing - don't duplicate the action
}
}
// doShellCommand() will error if the user is not authorised to run
// shell commands.
QString command = event.preAction();
kDebug() << "Pre-DISPLAY command:" << command;
int flags = (reschedule ? ProcData::RESCHEDULE : 0) | (allowDefer ? ProcData::ALLOW_DEFER : 0);
if (doShellCommand(command, event, &alarm, (flags | ProcData::PRE_ACTION)))
{
AlarmCalendar::resources()->setAlarmPending(&event);
return result; // display the message after the command completes
}
// Error executing command
if (event.cancelOnPreActionError())
{
// Cancel the rest of the alarm execution
kDebug() << event.id() << ": pre-action failed: cancelled";
if (reschedule)
rescheduleAlarm(event, alarm, true);
return 0;
}
// Display the message even though it failed
}
if (!win)
{
// There isn't already a message for this event
int flags = (reschedule ? 0 : MessageWin::NO_RESCHEDULE) | (allowDefer ? 0 : MessageWin::NO_DEFER);
(new MessageWin(&event, alarm, flags))->show();
}
else if (replaceReminder)
{
// The caption needs to be changed from "Reminder" to "Message"
win->cancelReminder(event, alarm);
}
else if (!win->hasDefer() && !alarm.repeatAtLogin())
{
// It's a repeat-at-login message with no Defer button,
// which has now reached its final trigger time and needs
// to be replaced with a new message.
win->showDefer();
win->showDateTime(event, alarm);
}
else
{
// Use the existing message window
}
if (win)
{
// Raise the existing message window and replay any sound
win->repeat(alarm); // N.B. this reschedules the alarm
}
break;
}
case KAAlarm::EMAIL:
{
kDebug() << "EMAIL to:" << event.emailAddresses(QLatin1String(","));
QStringList errmsgs;
KAMail::JobData data(event, alarm, reschedule, (reschedule || allowDefer));
data.queued = true;
int ans = KAMail::send(data, errmsgs);
if (ans)
{
// The email has either been sent or failed - not queued
if (ans < 0)
result = 0; // failure
data.queued = false;
emailSent(data, errmsgs, (ans > 0));
}
else
{
result = (void*)-1; // email has been queued
}
if (reschedule)
rescheduleAlarm(event, alarm, true);
break;
}
case KAAlarm::AUDIO:
{
// Play the sound, provided that the same event
// isn't already playing
#ifdef USE_AKONADI
MessageWin* win = MessageWin::findEvent(EventId(event));
#else
MessageWin* win = MessageWin::findEvent(event.id());
#endif
if (!win)
{
// There isn't already a message for this event.
int flags = (reschedule ? 0 : MessageWin::NO_RESCHEDULE) | MessageWin::ALWAYS_HIDE;
win = new MessageWin(&event, alarm, flags);
}
else
{
// There's an existing message window: replay the sound
win->repeat(alarm); // N.B. this reschedules the alarm
}
return win;
}
default:
return 0;
}
return result;
}
/******************************************************************************
* Called when sending an email has completed.
*/
void KAlarmApp::emailSent(KAMail::JobData& data, const QStringList& errmsgs, bool copyerr)
{
if (!errmsgs.isEmpty())
{
// Some error occurred, although the email may have been sent successfully
if (errmsgs.count() > 1)
kDebug() << (copyerr ? "Copy error:" : "Failed:") << errmsgs[1];
MessageWin::showError(data.event, data.alarm.dateTime(), errmsgs);
}
else if (data.queued)
emit execAlarmSuccess();
}
/******************************************************************************
* Execute the command specified in a command alarm.
* To connect to the output ready signals of the process, specify a slot to be
* called by supplying 'receiver' and 'slot' parameters.
*/
ShellProcess* KAlarmApp::execCommandAlarm(const KAEvent& event, const KAAlarm& alarm, const QObject* receiver, const char* slot)
{
// doShellCommand() will error if the user is not authorised to run
// shell commands.
int flags = (event.commandXterm() ? ProcData::EXEC_IN_XTERM : 0)
| (event.commandDisplay() ? ProcData::DISP_OUTPUT : 0);
QString command = event.cleanText();
if (event.commandScript())
{
// Store the command script in a temporary file for execution
kDebug() << "Script";
QString tmpfile = createTempScriptFile(command, false, event, alarm);
if (tmpfile.isEmpty())
{
setEventCommandError(event, KAEvent::CMD_ERROR);
return 0;
}
return doShellCommand(tmpfile, event, &alarm, (flags | ProcData::TEMP_FILE), receiver, slot);
}
else
{
kDebug() << command;
return doShellCommand(command, event, &alarm, flags, receiver, slot);
}
}
/******************************************************************************
* Execute a shell command line specified by an alarm.
* If the PRE_ACTION bit of 'flags' is set, the alarm will be executed via
* execAlarm() once the command completes, the execAlarm() parameters being
* derived from the remaining bits in 'flags'.
* 'flags' must contain the bit PRE_ACTION or POST_ACTION if and only if it is
* a pre- or post-alarm action respectively.
* To connect to the output ready signals of the process, specify a slot to be
* called by supplying 'receiver' and 'slot' parameters.
*
* Note that if shell access is not authorised, the attempt to run the command
* will be errored.
*/
ShellProcess* KAlarmApp::doShellCommand(const QString& command, const KAEvent& event, const KAAlarm* alarm, int flags, const QObject* receiver, const char* slot)
{
kDebug() << command << "," << event.id();
QIODevice::OpenMode mode = QIODevice::WriteOnly;
QString cmd;
QString tmpXtermFile;
if (flags & ProcData::EXEC_IN_XTERM)
{
// Execute the command in a terminal window.
cmd = composeXTermCommand(command, event, alarm, flags, tmpXtermFile);
}
else
{
cmd = command;
mode = QIODevice::ReadWrite;
}
ProcData* pd = 0;
ShellProcess* proc = 0;
if (!cmd.isEmpty())
{
// Use ShellProcess, which automatically checks whether the user is
// authorised to run shell commands.
proc = new ShellProcess(cmd);
proc->setEnv(QLatin1String("KALARM_UID"), event.id(), true);
proc->setOutputChannelMode(KProcess::MergedChannels); // combine stdout & stderr
connect(proc, SIGNAL(shellExited(ShellProcess*)), SLOT(slotCommandExited(ShellProcess*)));
if ((flags & ProcData::DISP_OUTPUT) && receiver && slot)
{
connect(proc, SIGNAL(receivedStdout(ShellProcess*)), receiver, slot);
connect(proc, SIGNAL(receivedStderr(ShellProcess*)), receiver, slot);
}
if (mode == QIODevice::ReadWrite && !event.logFile().isEmpty())
{
// Output is to be appended to a log file.
// Set up a logging process to write the command's output to.
QString heading;
if (alarm && alarm->dateTime().isValid())
{
QString dateTime = alarm->dateTime().formatLocale();
heading.sprintf("\n******* KAlarm %s *******\n", dateTime.toLatin1().data());
}
else
heading = QLatin1String("\n******* KAlarm *******\n");
QFile logfile(event.logFile());
if (logfile.open(QIODevice::Append | QIODevice::Text))
{
QTextStream out(&logfile);
out << heading;
logfile.close();
}
proc->setStandardOutputFile(event.logFile(), QIODevice::Append);
}
pd = new ProcData(proc, new KAEvent(event), (alarm ? new KAAlarm(*alarm) : 0), flags);
if (flags & ProcData::TEMP_FILE)
pd->tempFiles += command;
if (!tmpXtermFile.isEmpty())
pd->tempFiles += tmpXtermFile;
mCommandProcesses.append(pd);
if (proc->start(mode))
return proc;
}
// Error executing command - report it
kWarning() << "Command failed to start";
commandErrorMsg(proc, event, alarm, flags);
if (pd)
{
mCommandProcesses.removeAt(mCommandProcesses.indexOf(pd));
delete pd;
}
return 0;
}
/******************************************************************************
* Compose a command line to execute the given command in a terminal window.
* 'tempScriptFile' receives the name of a temporary script file which is
* invoked by the command line, if applicable.
* Reply = command line, or empty string if error.
*/
QString KAlarmApp::composeXTermCommand(const QString& command, const KAEvent& event, const KAAlarm* alarm, int flags, QString& tempScriptFile) const
{
kDebug() << command << "," << event.id();
tempScriptFile.clear();
QString cmd = Preferences::cmdXTermCommand();
cmd.replace(QLatin1String("%t"), KGlobal::mainComponent().aboutData()->programName()); // set the terminal window title
if (cmd.indexOf(QLatin1String("%C")) >= 0)
{
// Execute the command from a temporary script file
if (flags & ProcData::TEMP_FILE)
cmd.replace(QLatin1String("%C"), command); // the command is already calling a temporary file
else
{
tempScriptFile = createTempScriptFile(command, true, event, *alarm);
if (tempScriptFile.isEmpty())
return QString();
cmd.replace(QLatin1String("%C"), tempScriptFile); // %C indicates where to insert the command
}
}
else if (cmd.indexOf(QLatin1String("%W")) >= 0)
{
// Execute the command from a temporary script file,
// with a sleep after the command is executed
tempScriptFile = createTempScriptFile(command + QLatin1String("\nsleep 86400\n"), true, event, *alarm);
if (tempScriptFile.isEmpty())
return QString();
cmd.replace(QLatin1String("%W"), tempScriptFile); // %w indicates where to insert the command
}
else if (cmd.indexOf(QLatin1String("%w")) >= 0)
{
// Append a sleep to the command.
// Quote the command in case it contains characters such as [>|;].
QString exec = KShell::quoteArg(command + QLatin1String("; sleep 86400"));
cmd.replace(QLatin1String("%w"), exec); // %w indicates where to insert the command string
}
else
{
// Set the command to execute.
// Put it in quotes in case it contains characters such as [>|;].
QString exec = KShell::quoteArg(command);
if (cmd.indexOf(QLatin1String("%c")) >= 0)
cmd.replace(QLatin1String("%c"), exec); // %c indicates where to insert the command string
else
cmd.append(exec); // otherwise, simply append the command string
}
return cmd;
}
/******************************************************************************
* Create a temporary script file containing the specified command string.
* Reply = path of temporary file, or null string if error.
*/
QString KAlarmApp::createTempScriptFile(const QString& command, bool insertShell, const KAEvent& event, const KAAlarm& alarm) const
{
KTemporaryFile tmpFile;
tmpFile.setAutoRemove(false); // don't delete file when it is destructed
if (!tmpFile.open())
kError() << "Unable to create a temporary script file";
else
{
tmpFile.setPermissions(QFile::ReadUser | QFile::WriteUser | QFile::ExeUser);
QTextStream stream(&tmpFile);
if (insertShell)
stream << "#!" << ShellProcess::shellPath() << "\n";
stream << command;
stream.flush();
if (tmpFile.error() != QFile::NoError)
kError() << "Error" << tmpFile.errorString() << " writing to temporary script file";
else
return tmpFile.fileName();
}
QStringList errmsgs(i18nc("@info", "Error creating temporary script file"));
MessageWin::showError(event, alarm.dateTime(), errmsgs, QLatin1String("Script"));
return QString();
}
/******************************************************************************
* Called when a command alarm's execution completes.
*/
void KAlarmApp::slotCommandExited(ShellProcess* proc)
{
kDebug();
// Find this command in the command list
for (int i = 0, end = mCommandProcesses.count(); i < end; ++i)
{
ProcData* pd = mCommandProcesses[i];
if (pd->process == proc)
{
// Found the command. Check its exit status.
bool executeAlarm = pd->preAction();
ShellProcess::Status status = proc->status();
if (status == ShellProcess::SUCCESS && !proc->exitCode())
{
kDebug() << pd->event->id() << ": SUCCESS";
clearEventCommandError(*pd->event, pd->preAction() ? KAEvent::CMD_ERROR_PRE
: pd->postAction() ? KAEvent::CMD_ERROR_POST
: KAEvent::CMD_ERROR);
}
else
{
QString errmsg = proc->errorMessage();
if (status == ShellProcess::SUCCESS || status == ShellProcess::NOT_FOUND)
kWarning() << pd->event->id() << ":" << errmsg << "exit status =" << status << ", code =" << proc->exitCode();
else
kWarning() << pd->event->id() << ":" << errmsg << "exit status =" << status;
if (pd->messageBoxParent)
{
// Close the existing informational KMessageBox for this process
QList<KDialog*> dialogs = pd->messageBoxParent->findChildren<KDialog*>();
if (!dialogs.isEmpty())
delete dialogs[0];
setEventCommandError(*pd->event, pd->preAction() ? KAEvent::CMD_ERROR_PRE
: pd->postAction() ? KAEvent::CMD_ERROR_POST
: KAEvent::CMD_ERROR);
if (!pd->tempFile())
{
errmsg += QLatin1Char('\n');
errmsg += proc->command();
}
KAMessageBox::error(pd->messageBoxParent, errmsg);
}
else
commandErrorMsg(proc, *pd->event, pd->alarm, pd->flags);
if (executeAlarm && pd->event->cancelOnPreActionError())
{
kDebug() << pd->event->id() << ": pre-action failed: cancelled";
if (pd->reschedule())
rescheduleAlarm(*pd->event, *pd->alarm, true);
executeAlarm = false;
}
}
if (pd->preAction())
AlarmCalendar::resources()->setAlarmPending(pd->event, false);
if (executeAlarm)
execAlarm(*pd->event, *pd->alarm, pd->reschedule(), pd->allowDefer(), true);
mCommandProcesses.removeAt(i);
delete pd;
break;
}
}
// If there are now no executing shell commands, quit if a quit was queued
if (mPendingQuit && mCommandProcesses.isEmpty())
quitIf(mPendingQuitCode);
}
/******************************************************************************
* Output an error message for a shell command, and record the alarm's error status.
*/
void KAlarmApp::commandErrorMsg(const ShellProcess* proc, const KAEvent& event, const KAAlarm* alarm, int flags)
{
KAEvent::CmdErrType cmderr;
QStringList errmsgs;
QString dontShowAgain;
if (flags & ProcData::PRE_ACTION)
{
if (event.dontShowPreActionError())
return; // don't notify user of any errors for the alarm
errmsgs += i18nc("@info", "Pre-alarm action:");
dontShowAgain = QLatin1String("Pre");
cmderr = KAEvent::CMD_ERROR_PRE;
}
else if (flags & ProcData::POST_ACTION)
{
errmsgs += i18nc("@info", "Post-alarm action:");
dontShowAgain = QLatin1String("Post");
cmderr = (event.commandError() == KAEvent::CMD_ERROR_PRE)
? KAEvent::CMD_ERROR_PRE_POST : KAEvent::CMD_ERROR_POST;
}
else
{
dontShowAgain = QLatin1String("Exec");
cmderr = KAEvent::CMD_ERROR;
}
// Record the alarm's error status
setEventCommandError(event, cmderr);
// Display an error message
if (proc)
{
errmsgs += proc->errorMessage();
if (!(flags & ProcData::TEMP_FILE))
errmsgs += proc->command();
dontShowAgain += QString::number(proc->status());
}
MessageWin::showError(event, (alarm ? alarm->dateTime() : DateTime()), errmsgs, dontShowAgain);
}
/******************************************************************************
* Notes that an informational KMessageBox is displayed for this process.
*/
void KAlarmApp::commandMessage(ShellProcess* proc, QWidget* parent)
{
// Find this command in the command list
for (int i = 0, end = mCommandProcesses.count(); i < end; ++i)
{
ProcData* pd = mCommandProcesses[i];
if (pd->process == proc)
{
pd->messageBoxParent = parent;
break;
}
}
}
/******************************************************************************
* Return a D-Bus interface object for KSpeech.
* The KTTSD D-Bus service is started if necessary.
* If the service cannot be started, 'error' is set to an error text.
*/
OrgKdeKSpeechInterface* KAlarmApp::kspeechInterface(QString& error) const
{
error.clear();
QDBusConnection client = QDBusConnection::sessionBus();
if (!client.interface()->isServiceRegistered(KTTSD_DBUS_SERVICE))
{
// kttsd is not running, so start it
delete mKSpeech;
mKSpeech = 0;
if (KToolInvocation::startServiceByDesktopName(QLatin1String("kttsd"), QStringList(), &error))
{
kDebug() << "Failed to start kttsd:" << error;
return 0;
}
}
if (!mKSpeech)
{
mKSpeech = new OrgKdeKSpeechInterface(KTTSD_DBUS_SERVICE, KTTDS_DBUS_PATH, QDBusConnection::sessionBus());
mKSpeech->setParent(theApp());
mKSpeech->setApplicationName(KGlobal::mainComponent().aboutData()->programName());
mKSpeech->setDefaultPriority(KSpeech::jpMessage);
}
return mKSpeech;
}
/******************************************************************************
* Called when a D-Bus service unregisters.
* If it's the KTTSD service, delete the KSpeech interface object.
*/
void KAlarmApp::slotDBusServiceUnregistered(const QString& serviceName)
{
if (serviceName == KTTSD_DBUS_SERVICE)
{
delete mKSpeech;
mKSpeech = 0;
}
}
/******************************************************************************
* If this is the first time through, open the calendar file, and start
* processing the execution queue.
*/
#ifdef USE_AKONADI
bool KAlarmApp::initCheck(bool calendarOnly, bool waitForCollection, Akonadi::Collection::Id collectionId)
#else
bool KAlarmApp::initCheck(bool calendarOnly)
#endif
{
static bool firstTime = true;
if (firstTime)
kDebug() << "first time";
if (initialise() || firstTime)
{
/* Need to open the display calendar now, since otherwise if display
* alarms are immediately due, they will often be processed while
* MessageWin::redisplayAlarms() is executing open() (but before open()
* completes), which causes problems!!
*/
AlarmCalendar::displayCalendar()->open();
if (!AlarmCalendar::resources()->open())
return false;
}
if (firstTime)
{
setArchivePurgeDays();
// Warn the user if there are no writable active alarm calendars
checkWritableCalendar();
firstTime = false;
}
if (!calendarOnly)
startProcessQueue(); // start processing the execution queue
#ifdef USE_AKONADI
if (waitForCollection)
{
#if KDE_IS_VERSION(4,9,80)
// Wait for one or all Akonadi collections to be populated
if (!CollectionControlModel::instance()->waitUntilPopulated(collectionId, AKONADI_TIMEOUT))
return false;
#endif
}
#endif
return true;
}
/******************************************************************************
* Called when an audio thread starts or stops.
*/
void KAlarmApp::notifyAudioPlaying(bool playing)
{
emit audioPlaying(playing);
}
/******************************************************************************
* Stop audio play.
*/
void KAlarmApp::stopAudio()
{
MessageWin::stopAudio();
}
void setEventCommandError(const KAEvent& event, KAEvent::CmdErrType err)
{
if (err == KAEvent::CMD_ERROR_POST && event.commandError() == KAEvent::CMD_ERROR_PRE)
err = KAEvent::CMD_ERROR_PRE_POST;
event.setCommandError(err);
#ifdef USE_AKONADI
KAEvent* ev = AlarmCalendar::resources()->event(EventId(event));
#else
KAEvent* ev = AlarmCalendar::resources()->event(event.id());
#endif
if (ev && ev->commandError() != err)
ev->setCommandError(err);
#ifdef USE_AKONADI
AkonadiModel::instance()->updateCommandError(event);
#else
EventListModel::alarms()->updateCommandError(event.id());
#endif
}
void clearEventCommandError(const KAEvent& event, KAEvent::CmdErrType err)
{
KAEvent::CmdErrType newerr = static_cast<KAEvent::CmdErrType>(event.commandError() & ~err);
event.setCommandError(newerr);
#ifdef USE_AKONADI
KAEvent* ev = AlarmCalendar::resources()->event(EventId(event));
#else
KAEvent* ev = AlarmCalendar::resources()->event(event.id());
#endif
if (ev)
{
newerr = static_cast<KAEvent::CmdErrType>(ev->commandError() & ~err);
ev->setCommandError(newerr);
}
#ifdef USE_AKONADI
AkonadiModel::instance()->updateCommandError(event);
#else
EventListModel::alarms()->updateCommandError(event.id());
#endif
}
KAlarmApp::ProcData::ProcData(ShellProcess* p, KAEvent* e, KAAlarm* a, int f)
: process(p),
event(e),
alarm(a),
messageBoxParent(0),
flags(f)
{ }
KAlarmApp::ProcData::~ProcData()
{
while (!tempFiles.isEmpty())
{
// Delete the temporary file called by the XTerm command
QFile f(tempFiles.first());
f.remove();
tempFiles.removeFirst();
}
delete process;
delete event;
delete alarm;
}
#include "moc_kalarmapp.cpp"
// vim: et sw=4:
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