#ifndef _KPILOT_SYNCACTION_H #define _KPILOT_SYNCACTION_H /* KPilot ** ** Copyright (C) 1998-2001 by Dan Pilone ** Copyright (C) 2003-2004 Reinhold Kainhofer ** Copyright (C) 2006 Adriaan de Groot ** */ /* ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU Lesser General Public License as published by ** the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details. ** ** You should have received a copy of the GNU Lesser General Public License ** along with this program in a file called COPYING; if not, write to ** the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, ** MA 02110-1301, USA. */ /* ** Bug reports and questions can be sent to kde-pim@kde.org */ #include #include #include #include #include #include "kpilotlink.h" /** @file * SyncAction */ class TQTimer; class KPilotUser; class SyncAction; class KDE_EXPORT SyncAction : public TQObject { Q_OBJECT TQ_OBJECT public: SyncAction(KPilotLink *p, const char *name=0L); SyncAction(KPilotLink *p, TQWidget *visibleparent, const char *name=0L); ~SyncAction(); typedef enum { Error=-1 } Status; /** A syncaction has a status, which can be expressed as an * integer. Subclasses are expected to define their own status * values as needed. */ int status() const { return fActionStatus; } /** Return a human-readable representation of the status. */ virtual TQString statusString() const; protected: /** * This function starts the actual processing done * by the conduit. It should return false if the * processing cannot be initiated, f.ex. because * some parameters were not set or a needed library * is missing. This will be reported to the user. * It should return true if processing is started * normally. If processing starts normally, it is * the _conduit's_ responsibility to eventually * emit syncDone(); if processing does not start * normally (ie. exec() returns false) then the * environment will deal with syncDone(). */ virtual bool exec() = 0; public slots: /** * This just calls exec() and deals with the * return code. */ void execConduit(); signals: void syncDone(SyncAction *); void logMessage(const TQString &); void logError(const TQString &); void logProgress(const TQString &,int); protected slots: /** This slot emits syncDone(), and does nothing else. This * is safe, since the method returns immediately after the * emit -- even if syncDone() causes the SyncAction to be deleted. */ void delayedDoneSlot(); protected: /** * It might not be safe to emit syncDone() from exec(). * So instead, call delayDone() to wait for the main event * loop to return if you manage to do all processing * immediately. * * delayDone() returns true, so that return delayDone(); * is a sensible final statement in exec(). */ bool delayDone(); public: /** Public API for adding a sync log entry, see the implementation * in KPilotLink::addSyncLogEntry(). * @param e Message to add to the sync log * @param log If @c true, also add the entry to the log in KPilot * @note Having messages appear on the handheld but not in KPilot * should be a @em very rare occurrence. */ void addSyncLogEntry(const TQString &e,bool log=true) { if (deviceLink()) { deviceLink()->addSyncLogEntry(e,log); } } /** Public API for adding a message to the log in KPilot. * Adds @p msg to the synclog maintained on the PC. */ void addLogMessage( const TQString &msg ) { emit logMessage( msg ); } /** Log an error message in KPilot (the PC side of things). */ void addLogError( const TQString &msg ) { emit logError( msg ); } /** Log progress in KPilot (the PC side of things). */ void addLogProgress( const TQString &msg, int prog ) { emit logProgress( msg, prog ); } protected: /** Connection to the device. @todo make private. */ KPilotLink *fHandle; int fActionStatus; /** Returns a pointer to the connection to the device. */ inline KPilotLink *deviceLink() const { return fHandle; } /** Returns the file descriptor for the device link -- that is, * the raw handle to the OS's connection to the device. Use with care. * May return -1 if there is no device. */ int pilotSocket() const { return deviceLink() ? deviceLink()->pilotSocket() : -1 ; } /** Tells the handheld device that someone is talking to it now. * Useful (repeatedly) to inform the user of what is going on. * May return < 0 on error (or if there is no device attached). */ int openConduit() { return deviceLink() ? deviceLink()->openConduit() : -1; } public: /** * This class encapsulates the different sync modes that * can be used, and enforces a little discipline in changing * the mode and messing around in general. It replaces a * simple enum by not much more, but it makes things like * local test backups less likely to happen. * * Note that this could all be packed into a bitfield (5 bits needed) * but that makes for messy code in the end. */ class SyncMode { public: /** Available modes for the sync. */ enum Mode { eHotSync=1, eFullSync=2, eCopyPCToHH=3, eCopyHHToPC=4, eBackup=5, eRestore=6 } ; /** Create a mode with the given Mode @p m and * the mix-ins @p test and @p local, which * determine whether the sync should actually change * anything at all (test mode) and whether the HH is * to be simulated by local databases. */ SyncMode(Mode m, bool test=false, bool local=false); /** Create a mode by parsing the string list. This * is used mostly by the conduit proxies, which use * a string list to pass aparameters to the shared * library loader. */ SyncMode(const TQStringList &l); /** Returns the kind of sync; this is just incomplete * information, since a test hot sync is very different from * a non-test one. */ Mode mode() const { return fMode; } /** Sets a mode from an integer @p mode, if possible. * If the @p mode is illegal, return false and set the * mode to Hot Sync. As a side effect, options test and local * are reset to false. */ bool setMode(int); /** Sets a mode from a @p mode, if possible. This leaves * the options unchanged, so as to reward properly-typed programming. */ bool setMode(Mode m); /** Sets options. Returns false if the combination of mode * and the options is impossible. */ bool setOptions(bool test, bool local) { fTest=test; fLocal=local; return true; } /** Shorthand to test for a specific mode enum. This disregards * the mixings local and test. */ bool operator ==(const Mode &m) const { return mode() == m; } /** Longhand comparison. Compares two modes for the same * mode enum and mixins local and test. */ bool operator ==(const SyncMode &m) const { return ( mode() == m.mode() ) && ( isTest() == m.isTest() ) && ( isLocal() == m.isLocal() ); } ; /** Accessor for the test part of the mode. Test syncs should * never actually modify data anywhere. */ bool isTest() const { return fTest; } /** Accessor for the local part of the mode. Local syncs use a * local database instead of one on the device link. */ bool isLocal() const { return fLocal; } bool isFullSync() const { return ( fMode==eFullSync ) || ( fMode==eCopyPCToHH) || ( fMode==eCopyHHToPC) ; } ; bool isFirstSync() const { return ( fMode==eCopyHHToPC ) || ( fMode==eCopyPCToHH ) ; }; /** Classify every mode as either a sync (two-way) or copy (one-way) mode. */ bool isSync() const { return ( fMode==eFullSync ) || ( fMode == eHotSync ); } ; /** Classify every mode as either a sync (two-way) or copy (one-way) mode. */ bool isCopy() const { return ( fMode==eBackup ) || ( fMode==eRestore ) || ( fMode==eCopyPCToHH ) || ( fMode==eCopyHHToPC ); } ; /** * Returns a standard name for each of the sync modes. */ static TQString name(Mode); /** * Returns a (human readable) name for this particular mode, * including extra information about test and local mode. */ TQString name() const; /** * Returns a TQStringList that, when passed to the constructor * of SyncMode, will re-create it. Used to pass modes into * shared library factories. */ TQStringList list() const; private: Mode fMode; bool fTest; bool fLocal; }; enum ConflictResolution { eUseGlobalSetting=-1, eAskUser=0, eDoNothing, eHHOverrides, ePCOverrides, ePreviousSyncOverrides, eDuplicate, eDelete, eCROffset=-1 }; /** * This MUST stay in sync with the combobox in * kpilotConfigDialog_backup.ui. If it does not, you need to * either change this enum or the combobox. */ enum BackupFrequency { eEveryHotSync=0, eOnRequestOnly }; protected: /** * Call startTickle() some time before showing a dialog to the * user (we're assuming a local event loop here) so that while * the dialog is up and the user is thinking, the pilot stays * awake. Afterwards, call stopTickle(). * * The parameter to startTickle indicates the timeout, in * seconds, before signal timeout is emitted. You can connect * to that, again, to take down the user interface part if the * user isn't reacting. */ void startTickle(unsigned count=0); void stopTickle(); signals: void timeout(); protected: TQWidget *fParent; /** * Ask a yes-no question of the user. This has a timeout so that * you don't wait forever for inattentive users. It's much like * KMessageBox::questionYesNo(), but with this extra timeout-on- * no-answer feature. Returns a KDialogBase::ButtonCode value - Yes,No or * Cancel on timeout. If there is a key set and the user indicates not to ask again, * the selected answer (Yes or No) is remembered for future reference. * * @p caption Message Box caption, uses "Question" if null. * @p key Key for the "Don't ask again" code. * @p timeout Timeout, in seconds. */ int questionYesNo(const TQString &question , const TQString &caption = TQString(), const TQString &key = TQString(), unsigned timeout = 20, const TQString &yes = TQString(), const TQString &no = TQString() ); int questionYesNoCancel(const TQString &question , const TQString &caption = TQString(), const TQString &key = TQString(), unsigned timeout = 20, const TQString &yes = TQString(), const TQString &no = TQString() ) ; }; #endif