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|
/* This file is part of the KDE mobile library.
Copyright (C) 2003-2005 Helge Deller <deller@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <tqstring.h>
#include <tqstringlist.h>
#include <tqdir.h>
#include <klibloader.h>
#include <kconfig.h>
#include <kstandarddirs.h>
#include <kmessagebox.h>
#include <kio/global.h>
#include <kdebug.h>
#include <klocale.h>
#include <gnokii.h>
#include "gnokii_mobile.h"
#include "gnokiiconfig.h"
#define KGNOKII_DEBUG_AREA 5730
#define PRINT_DEBUG kdDebug(KGNOKII_DEBUG_AREA) << "KMobileGnokii: "
#define GNOKII_DEBUG(x) PRINT_DEBUG << x
#define APP "KMobileGnokii"
#define GNOKII_CHECK_ERROR(error) \
do { \
if (error) \
PRINT_DEBUG << TQString("ERROR %1: %2\n").arg(error).arg(gn_error_print(error));\
} while (0)
/* This is a loaded library, which is initialized with the line below */
K_EXPORT_COMPONENT_FACTORY( libkmobile_gnokii, KMobileGnokii() )
/* createObject needs to be reimplemented by every KMobileDevice driver */
TQObject *KMobileGnokii::createObject( TQObject *parent, const char *name,
const char *, const TQStringList &args )
{
return new KMobileGnokii( parent, name, args );
}
static char *BinDir;
static char *lockfile = NULL;
static char model[GN_MODEL_MAX_LENGTH+1], revision[GN_REVISION_MAX_LENGTH+1], imei[GN_IMEI_MAX_LENGTH+1];
static TQString PhoneProductId;
static gn_statemachine state;
static gn_data data;
static gn_calnote_list calnote_list;
/**
* The KDE gnokii mobile device driver.
*/
KMobileGnokii::KMobileGnokii(TQObject *obj, const char *name, const TQStringList &args )
: KMobileDevice(obj, name, args)
{
// set initial device info
setClassType( Phone );
m_deviceName = i18n("Mobile Phone accessed via GNOKII");
m_deviceRevision = "";
m_connectionName = "/dev/ircomm0";
setCapabilities( hasAddressBook | hasNotes );
m_numAddresses = -1;
// now initialize the configuration based on the
// given config file from args[0]
loadDeviceConfiguration();
if (m_modelnr.isEmpty())
loadGnokiiConfiguration();
if (m_modelnr.isEmpty()) {
// default communcation values
m_modelnr = "6310";
m_connection = "infrared";
m_port = "/dev/ircomm0";
m_baud = "9600";
}
PRINT_DEBUG << TQString("Using GNOKII configuration: %1 %2 %3 %4\n").arg(m_modelnr)
.arg(m_connection).arg(m_port).arg(m_baud);
saveDeviceConfiguration();
saveGnokiiConfiguration();
}
KMobileGnokii::~KMobileGnokii()
{
}
/******************************************************************************************
* GNOKII lowlevel interface
******************************************************************************************/
static gn_connection_type connectionToValue( TQString connectionName )
{
if (connectionName == "serial")
return GN_CT_Serial;
if (connectionName == "dau9p")
return GN_CT_DAU9P;
if (connectionName == "dlr3p")
return GN_CT_DLR3P;
if (connectionName == "infrared")
return GN_CT_Infrared;
if (connectionName == "m2bus")
return GN_CT_M2BUS;
if (connectionName == "irda")
return GN_CT_Irda;
if (connectionName == "bluetooth")
return GN_CT_Bluetooth;
//#ifndef WIN32
if (connectionName == "tcp")
return GN_CT_TCP;
//#endif
if (connectionName == "tekram")
return GN_CT_Tekram;
return GN_CT_Serial; /* default */
}
bool KMobileGnokii::setGnokiiStateMachine()
{
// set the state machine to our configuration
qstrncpy( state.config.model, m_modelnr.utf8(), sizeof(state.config.model)-1 );
qstrncpy( state.config.port_device, m_port.utf8(), sizeof(state.config.port_device)-1 );
state.config.connection_type = connectionToValue(m_connection);
state.config.serial_baudrate = m_baud.toUInt();
return true;
}
bool KMobileGnokii::saveConfig( KConfig &conf, TQString group )
{
conf.setGroup(group);
conf.writeEntry("model", m_modelnr );
conf.writeEntry("port", m_port );
conf.writeEntry("connection", m_connection );
// conf.writeEntry("initlength", "default" );
conf.writeEntry("serial_baudrate", m_baud );
// conf.writeEntry("serial_write_usleep", "0" );
// conf.writeEntry("handshake", "" ); // software (or:rtscts), hardware (or:xonxoff)
conf.writeEntry("require_dcd", "1" );
// conf.writeEntry("smsc_timeout", "1" );
conf.sync();
return true;
}
bool KMobileGnokii::loadConfig( KConfig &conf, TQString group )
{
conf.setGroup(group);
m_modelnr = conf.readEntry("model", m_modelnr );
m_port = conf.readEntry("port", m_port );
m_connection = conf.readEntry("connection", m_connection );
m_baud = conf.readEntry("serial_baudrate", m_baud );
return true;
}
bool KMobileGnokii::saveGnokiiConfiguration()
{
KConfig conf( TQDir::homeDirPath() + "/.gnokiirc", false, false, "" );
return saveConfig( conf, "global" );
}
bool KMobileGnokii::loadGnokiiConfiguration()
{
KConfig conf( TQDir::homeDirPath() + "/.gnokiirc", true, false, "" );
return loadConfig( conf, "global" );
}
bool KMobileGnokii::saveDeviceConfiguration()
{
return saveConfig( *config(), "global" );
}
bool KMobileGnokii::loadDeviceConfiguration()
{
return loadConfig( *config(), "global" );
}
static void busterminate(void)
{
gn_sm_functions(GN_OP_Terminate, NULL, &state);
if (lockfile) gn_device_unlock(lockfile);
}
static TQString businit(void)
{
gn_error error;
char *aux;
if (gn_cfg_read(&BinDir)<0 || !gn_cfg_phone_load("", &state))
return i18n("GNOKII isn't yet configured.");
gn_data_clear(&data);
aux = gn_cfg_get(gn_cfg_info, "global", "use_locking");
// Defaults to 'no'
if (aux && !strcmp(aux, "yes")) {
lockfile = gn_device_lock(state.config.port_device);
if (lockfile == NULL) {
return i18n("Lock file error.\n "
"Please exit all other running instances of gnokii and try again.");
}
}
// Initialise the code for the GSM interface.
int old_dcd = state.config.require_dcd; // work-around for older gnokii versions
state.config.require_dcd = false;
error = gn_gsm_initialise(&state);
GNOKII_CHECK_ERROR(error);
state.config.require_dcd = old_dcd;
if (error != GN_ERR_NONE) {
busterminate();
return i18n("Mobile phone interface initialization failed:\n%1").arg(gn_error_print(error));
}
// model
gn_data_clear(&data);
data.model = model;
model[0] = 0;
error = gn_sm_functions(GN_OP_GetModel, &data, &state);
GNOKII_CHECK_ERROR(error);
if (model[0] == 0)
strcpy(model, i18n("unknown").utf8());
data.model = NULL;
// revision
data.revision = revision;
revision[0] = 0;
error = gn_sm_functions(GN_OP_GetRevision, &data, &state);
GNOKII_CHECK_ERROR(error);
data.revision = NULL;
// imei
data.imei = imei;
imei[0] = 0;
error = gn_sm_functions(GN_OP_GetImei, &data, &state);
GNOKII_CHECK_ERROR(error);
data.imei = NULL;
GNOKII_DEBUG( TQString("Found mobile phone: Model: %1, Revision: %2, IMEI: %3\n")
.arg(model).arg(revision).arg(imei) );
PhoneProductId = TQString("%1-%2-%3-%4").arg(APP).arg(model).arg(revision).arg(imei);
return TQString::null;
}
// get number of entries in this phone memory type (internal/SIM-card)
static gn_error read_phone_memstat( gn_memory_type memtype, gn_memory_status *memstat )
{
gn_error error;
gn_data_clear(&data);
memset(memstat, 0, sizeof(*memstat));
memstat->memory_type = memtype;
data.memory_status = memstat;
error = gn_sm_functions(GN_OP_GetMemoryStatus, &data, &state);
GNOKII_CHECK_ERROR(error);
if (error != GN_ERR_NONE) {
switch (memtype) {
case GN_MT_SM:
// use at least 100 entries
memstat->used = 0;
memstat->free = 100;
break;
default:
case GN_MT_ME:
// Phone doesn't support ME (5110)
memstat->used = memstat->free = 0;
break;
}
}
GNOKII_DEBUG( TQString("\n\nMobile phone memory status: Type: %1, used=%2, free=%3, total=%4\n\n")
.arg(memtype).arg(memstat->used).arg(memstat->free).arg(memstat->used+memstat->free) );
return error;
}
// read phone entry #index from memory #memtype
static gn_error read_phone_entry( int index, gn_memory_type memtype, gn_phonebook_entry *entry )
{
gn_error error;
entry->memory_type = memtype;
entry->location = index;
data.phonebook_entry = entry;
error = gn_sm_functions(GN_OP_ReadPhonebook, &data, &state);
GNOKII_CHECK_ERROR(error);
return error;
}
#if 0
static bool phone_entry_empty( int index, gn_memory_type memtype )
{
gn_phonebook_entry entry;
gn_error error;
error = read_phone_entry( index, memtype, &entry );
if (error == GN_ERR_EMPTYLOCATION)
return true;
if (error == GN_ERR_NONE && entry.empty)
return true;
return false;
}
#endif
static int gn_error2kio_error( gn_error err )
{
if (err != GN_ERR_NONE)
GNOKII_CHECK_ERROR(err);
switch (err) {
case GN_ERR_NONE:
return 0;
case GN_ERR_INVALIDMEMORYTYPE:
case GN_ERR_INVALIDLOCATION:
case GN_ERR_EMPTYLOCATION:
return KIO::ERR_DOES_NOT_EXIST;
case GN_ERR_MEMORYFULL:
return KIO::ERR_OUT_OF_MEMORY;
case GN_ERR_NOLINK:
return KIO::ERR_COULD_NOT_CONNECT;
case GN_ERR_TIMEOUT:
return KIO::ERR_SERVER_TIMEOUT;
case GN_ERR_ENTRYTOOLONG:
case GN_ERR_WRONGDATAFORMAT:
case GN_ERR_INVALIDSIZE:
return KIO::ERR_COULD_NOT_WRITE;
default:
return KIO::ERR_INTERNAL;
}
}
static gn_error read_phone_entry_highlevel( int index, const gn_memory_type memtype, KABC::Addressee *a )
{
gn_phonebook_entry entry;
TQStringList addrlist;
TQString s, country;
KABC::Address *addr;
gn_error error;
// if (index > (memstat.used + memstat.free))
// return GN_ERR_INVALIDLOCATION;
error = read_phone_entry( index, memtype, &entry );
if (error != GN_ERR_NONE)
return error;
GNOKII_DEBUG(TQString("%1: %2, num=%3, location=%4, group=%5, count=%6\n").arg(index).arg(entry.name)
.arg(entry.number).arg(entry.location).arg(entry.caller_group).arg(entry.subentries_count));
// try to split Name into FamilyName and GivenName
s = TQString(entry.name).simplifyWhiteSpace();
a->setFormattedName(s);
if (s.find(',')!=-1) {
addrlist = TQStringList::split(',', s);
if (addrlist.count()==2) {
a->setFamilyName(addrlist[0].simplifyWhiteSpace());
a->setGivenName(addrlist[1].simplifyWhiteSpace());
} else
a->setGivenName(s);
} else {
addrlist = TQStringList::split(' ', s);
if (addrlist.count()==2) {
a->setFamilyName(addrlist[1].simplifyWhiteSpace());
a->setGivenName(addrlist[0].simplifyWhiteSpace());
} else
a->setGivenName(s);
}
a->insertCustom(APP, "X_GSM_CALLERGROUP", s.setNum(entry.caller_group));
a->insertCustom(APP, "X_GSM_STORE_AT", TQString("%1_%2").arg(GN_MT_ME).arg(entry.location));
// set ProductId
a->setProductId(PhoneProductId);
// evaluate timestamp (ignore timezone)
TQDateTime datetime;
if (entry.date.year<1998)
datetime = TQDateTime::tqcurrentDateTime();
else
datetime = TQDateTime( TQDate(entry.date.year, entry.date.month, entry.date.day),
TQTime(entry.date.hour, entry.date.minute, entry.date.second) );
GNOKII_DEBUG(TQString(" date=%1\n").arg(datetime.toString()));
a->setRevision(datetime);
if (!entry.subentries_count)
a->insertPhoneNumber(KABC::PhoneNumber(entry.number, KABC::PhoneNumber::Work | KABC::PhoneNumber::Pref));
/* scan sub-entries */
if (entry.subentries_count)
for (int n=0; n<entry.subentries_count; n++) {
TQString s = TQString(entry.subentries[n].data.number).simplifyWhiteSpace();
GNOKII_DEBUG(TQString(" Subentry#%1, entry_type=%2, number_type=%3, number=%4\n")
.arg(n).arg(entry.subentries[n].entry_type)
.arg(entry.subentries[n].number_type).arg(s));
if (s.isEmpty())
continue;
switch(entry.subentries[n].entry_type) {
case GN_PHONEBOOK_ENTRY_Name:
a->setName(s);
break;
case GN_PHONEBOOK_ENTRY_Email:
a->insertEmail(s);
break;
case GN_PHONEBOOK_ENTRY_Postal:
addrlist = TQStringList::split(',', s, true);
addr = new KABC::Address(KABC::Address::Work);
switch (addrlist.count()) {
case 4: addr->setStreet(addrlist[0].simplifyWhiteSpace());
addr->setLocality(addrlist[1].simplifyWhiteSpace());
addr->setPostalCode(addrlist[2].simplifyWhiteSpace());
country = addrlist[3].simplifyWhiteSpace();
if (!country.isEmpty())
addr->setCountry(i18n(country.utf8()));
break;
case 3: addr->setLocality(addrlist[0].simplifyWhiteSpace());
addr->setPostalCode(addrlist[1].simplifyWhiteSpace());
country = addrlist[2].simplifyWhiteSpace();
if (!country.isEmpty())
addr->setCountry(i18n(country.utf8()));
break;
default: addr->setStreet(s.simplifyWhiteSpace());
}
a->insertAddress(*addr);
delete addr;
break;
case GN_PHONEBOOK_ENTRY_Note:
if (!a->note().isEmpty())
s = "\n" + s;
a->setNote(a->note()+s);
break;
case GN_PHONEBOOK_ENTRY_Number:
enum KABC::PhoneNumber::Types phonetype;
switch (entry.subentries[n].number_type) {
case GN_PHONEBOOK_NUMBER_Mobile: phonetype = KABC::PhoneNumber::Cell; break;
case GN_PHONEBOOK_NUMBER_Fax: phonetype = KABC::PhoneNumber::Fax; break;
case GN_PHONEBOOK_NUMBER_General:
case GN_PHONEBOOK_NUMBER_Work: phonetype = KABC::PhoneNumber::Work; break;
default:
case GN_PHONEBOOK_NUMBER_Home: phonetype = KABC::PhoneNumber::Home; break;
}
//if (s == entry.number)
// type = (KABC::PhoneNumber::Types) (phonetype | KABC::PhoneNumber::Pref);
a->insertPhoneNumber(KABC::PhoneNumber(s, phonetype));
break;
case GN_PHONEBOOK_ENTRY_URL:
a->setUrl(s);
break;
case GN_PHONEBOOK_ENTRY_Group:
a->insertCategory(s);
break;
default:
GNOKII_DEBUG(TQString(" Not handled id=%1, entry=%2\n")
.arg(entry.subentries[n].entry_type).arg(s));
break;
} // switch()
} // for(subentry)
GNOKII_CHECK_ERROR(error);
return error;
}
/******************************************************************************************
*
******************************************************************************************/
// connect the device and ask user to turn device on (if necessary)
bool KMobileGnokii::connectDevice(TQWidget * /*parent*/)
{
if (connected())
return true;
TQString err = businit();
m_connected = err.isEmpty();
PRINT_DEBUG << TQString("connectDevice() : %1\n").arg(m_connected ? "Ok" : err);
return m_connected;
}
// disconnect the device and return true, if sucessful
bool KMobileGnokii::disconnectDevice(TQWidget * /*parent*/)
{
if (!connected())
return true;
busterminate();
m_connected = false;
PRINT_DEBUG << TQString("disconnectDevice() : %1\n").arg("done");
return true;
}
// provice the own configuration dialog
bool KMobileGnokii::configDialog(TQWidget *parent)
{
TQString model, connection, port, baud;
int ok = 0;
GnokiiConfig *dialog = new GnokiiConfig(parent);
if (dialog) {
dialog->setValues(m_modelnr, m_connection, m_port, m_baud);
ok = dialog->exec();
}
dialog->getValues(model, connection, port, baud);
delete dialog;
if (ok == TQDialog::Accepted) {
m_modelnr = model;
m_connection = connection;
m_port = port;
m_baud = baud;
saveDeviceConfiguration();
};
return true;
}
TQString KMobileGnokii::iconFileName() const
{
return "mobile_phone";
}
// return a unique ID, e.g. the IMEI number of phones, or a serial number
// this String is used to have a unique identification for syncronisation.
TQString KMobileGnokii::deviceUniqueID()
{
return TQString("GNOKII-IMEI-%1").arg(TQString::fromLocal8Bit(imei));
}
/**********************************************************************************
* Addressbook / Phonebook support *
**********************************************************************************/
int KMobileGnokii::numAddresses()
{
if (!connectDevice(NULL))
return 0;
gn_memory_status memstat;
gn_error error;
if (m_numAddresses>=0)
return m_numAddresses;
error = read_phone_memstat( GN_MT_ME, &memstat );
GNOKII_CHECK_ERROR(error);
if (error)
memstat.used = -1;
m_numAddresses = memstat.used;
if (m_numAddresses>0) {
// initialize the addrList array
m_addrList.clear();
KABC::Addressee addr;
for (int i=0; i<=m_numAddresses; i++)
m_addrList.append(addr);
}
return m_numAddresses;
}
int KMobileGnokii::readAddress( int index, KABC::Addressee &addr )
{
PRINT_DEBUG << TQString("############ GET ADDRESS #%1\n").arg(index);
// index is zero-based, but in gnokii the first address starts at 1
if (index<0 || index>=numAddresses())
return KIO::ERR_DOES_NOT_EXIST;
// now get our addressbook entry
// do we have this entry in the cache already ?
if (m_addrList.count() > (unsigned)index && !m_addrList[index].isEmpty()) {
addr = m_addrList[index];
return 0;
}
gn_error err = read_phone_entry_highlevel(index+1, GN_MT_ME, &addr );
if (!err)
m_addrList[index] = addr;
return gn_error2kio_error(err);
}
int KMobileGnokii::storeAddress( int, const KABC::Addressee &, bool )
{
/* XXX: this is a read-only device */
return KIO::ERR_WRITE_ACCESS_DENIED;
}
/**********************************************************************************
* Calendar support *
**********************************************************************************/
static void QDateTime_2_timestamp( const TQDateTime &qdt, gn_timestamp &ts )
{
ts.year = qdt.date().year();
ts.month = qdt.date().month();
ts.day = qdt.date().day();
ts.hour = qdt.time().hour();
ts.minute = qdt.time().minute();
ts.second = qdt.time().second();
ts.timezone = 0;
}
static TQDateTime timestamp_2_QDateTime( const gn_timestamp &ts )
{
return TQDateTime( TQDate(ts.year, ts.month, ts.day),
TQTime(ts.hour, ts.minute, ts.second) );
}
static void print_calnote( const gn_calnote &entry )
{
gn_timestamp ts = entry.time;
kdWarning() << "location=" << entry.location /* The number of the note in the phone memory */
<< " type=" << entry.type /* The type of the note */
<< " gn_timestamp=" << /* The time of the note */
" year=" << ts.year <<
" month=" << ts.month <<
" day=" << ts.day <<
" hour=" << ts.hour <<
" minute=" << ts.minute <<
" second=" << ts.second <<
" TZ=" << ts.timezone
<< " gn_calnote_alarm="<< entry.alarm.enabled /* The alarm of the note */
<< " text=" << entry.text /* The text of the note */
<< " number=" << entry.phone_number /* For Call only: the phone number */
<< " recurr=" << entry.recurrence << endl << endl;
}
int KMobileGnokii::numCalendarEntries()
{
gn_data_clear(&data);
gn_calnote entry;
memset(&entry, 0, sizeof(entry));
data.calnote = &entry;
entry.location = 1;
data.calnote_list = &calnote_list;
gn_error error = gn_sm_functions(GN_OP_GetCalendarNote, &data, &state);
switch (error) {
case GN_ERR_NONE:
case GN_ERR_INVALIDLOCATION:
case GN_ERR_EMPTYLOCATION:
return calnote_list.number;
default:
GNOKII_CHECK_ERROR(error);
return 0;
}
}
int KMobileGnokii::readCalendarEntry( int index, KCal::Event &event )
{
if (index < 0 || index >= GN_CALNOTE_MAX_NUMBER)
return KIO::ERR_DOES_NOT_EXIST;
gn_data_clear(&data);
gn_calnote entry;
memset(&entry, 0, sizeof(entry));
entry.location = index+1;
data.calnote = &entry;
data.calnote_list = &calnote_list;
gn_error error = gn_sm_functions(GN_OP_GetCalendarNote, &data, &state);
GNOKII_CHECK_ERROR(error);
if (error != GN_ERR_NONE)
return gn_error2kio_error(error);
print_calnote( entry );
TQDateTime dt_start = timestamp_2_QDateTime(entry.time);
TQDateTime dt_end = dt_start.addSecs( 60*60 ); // XXX: assume one hour
event.setDtStart( dt_start );
event.setDtEnd( dt_end );
event.setSummary( TQString::fromUtf8(entry.text) );
// type:
switch (entry.type) {
case GN_CALNOTE_MEETING:
event.setCategories(i18n("MEETING"));
break;
case GN_CALNOTE_CALL:
event.setCategories(i18n("PHONE CALL"));
event.setDescription(TQString::fromUtf8(entry.phone_number));
break;
case GN_CALNOTE_BIRTHDAY:
event.setCategories(i18n("BIRTHDAY"));
break;
case GN_CALNOTE_REMINDER:
event.setCategories(i18n("REMINDER"));
break;
default:
kdWarning() << "unknown calendar GN_CALNOTE_XXXX type #" << entry.type << endl;
}
// alarm:
if (entry.alarm.enabled) {
TQDateTime at = timestamp_2_QDateTime(entry.alarm.timestamp);
if (at.isValid() && dt_start.isValid()) {
int seconds = abs(at.secsTo(dt_start));
seconds %= 60*60*24; /* max. 1 day in advance... */
KCal::Alarm *eventalarm = event.newAlarm();
eventalarm->setStartOffset(KCal::Duration(seconds));
}
}
// recurrence:
switch (entry.recurrence) {
case GN_CALNOTE_NEVER:
break;
case GN_CALNOTE_DAILY:
event.recurrence()->setDaily(1,-1);
break;
case GN_CALNOTE_WEEKLY:
case GN_CALNOTE_2WEEKLY:
event.recurrence()->setDaily( 7 + (entry.recurrence==GN_CALNOTE_2WEEKLY ? 7:0) , -1);
break;
case GN_CALNOTE_MONTHLY:
event.recurrence()->setMonthly(KCal::Recurrence::rMonthlyPos, 1, -1);
break;
case GN_CALNOTE_YEARLY:
event.recurrence()->setYearly(KCal::Recurrence::rYearlyPos, 1, -1);
break;
default: // hourly
event.recurrence()->setHourly(entry.recurrence, -1);
break;
}
return 0;
}
int KMobileGnokii::storeCalendarEntry( int index, const KCal::Event &event )
{
if (index < 0 || index >= GN_CALNOTE_MAX_NUMBER)
return KIO::ERR_DOES_NOT_EXIST;
gn_error error;
gn_calnote entry;
gn_data_clear(&data);
memset(&entry, 0, sizeof(entry));
entry.location = index+1;
data.calnote = &entry;
data.calnote_list = &calnote_list;
// read first
error = gn_sm_functions(GN_OP_GetCalendarNote, &data, &state);
// GNOKII_CHECK_ERROR(error);
QDateTime_2_timestamp( event.dtStart(), entry.time );
strncpy(entry.text, event.summary().utf8(), sizeof(entry.text)-1);
// type:
entry.type = GN_CALNOTE_MEETING;
if (event.categories().findIndex(i18n("MEETING")) != -1) {
entry.type = GN_CALNOTE_MEETING;
} else if (event.categories().findIndex(i18n("PHONE CALL")) != -1) {
entry.type = GN_CALNOTE_CALL;
strncpy(entry.phone_number, event.description().utf8(), sizeof(entry.phone_number)-1);
} else if (event.categories().findIndex(i18n("BIRTHDAY")) != -1) {
entry.type = GN_CALNOTE_BIRTHDAY;
} else { // assume i18n("REMINDER")
entry.type = GN_CALNOTE_REMINDER;
}
// alarm:
entry.alarm.enabled = 0;
if (event.isAlarmEnabled()) {
const KCal::Alarm *eventalarm = *event.alarms().at(0);
if (eventalarm) {
if (eventalarm->hasTime()) {
QDateTime_2_timestamp( eventalarm->time(), entry.alarm.timestamp );
} else
if (eventalarm->hasStartOffset()) {
TQDateTime dt = event.dtStart();
dt = dt.addSecs(-eventalarm->startOffset().asSeconds());
QDateTime_2_timestamp( dt, entry.alarm.timestamp );
}
}
}
// recurrence:
switch (event.recurrence()->recurrenceType()) {
case KCal::Recurrence::rNone:
default:
entry.recurrence = GN_CALNOTE_NEVER;
break;
case KCal::Recurrence::rHourly:
entry.recurrence = (gn_calnote_recurrence) (event.recurrence()->frequency());
break;
case KCal::Recurrence::rDaily:
entry.recurrence = GN_CALNOTE_DAILY;
break;
case KCal::Recurrence::rWeekly:
entry.recurrence = (gn_calnote_recurrence) (GN_CALNOTE_WEEKLY * event.recurrence()->frequency());
break;
case KCal::Recurrence::rMonthlyPos:
case KCal::Recurrence::rMonthlyDay:
entry.recurrence = GN_CALNOTE_MONTHLY;
break;
case KCal::Recurrence::rYearlyMonth:
case KCal::Recurrence::rYearlyDay:
case KCal::Recurrence::rYearlyPos:
entry.recurrence = GN_CALNOTE_YEARLY;
break;
}
print_calnote( entry );
return 0; // XXX
error = gn_sm_functions(GN_OP_WriteCalendarNote, &data, &state);
GNOKII_CHECK_ERROR(error);
return 0;
}
/**********************************************************************************
* Notes support *
**********************************************************************************/
int KMobileGnokii::numNotes()
{
return 100; /* we simulate one address */
}
int KMobileGnokii::readNote( int index, TQString ¬e )
{
// index is zero-based, and we only have one simulated note
if (index<0 || index>=numNotes())
return KIO::ERR_DOES_NOT_EXIST;
note = TQString("NOTE #%1\n"
"--------\n"
"This is a sample note #%2\n\n"
"DeviceClassName: %3\n"
"Device Driver : %4\n"
"Device Revision: %5\n")
.arg(index).arg(index)
.arg(deviceClassName()).arg(deviceName()).arg(revision());
return 0;
}
#include "gnokii_mobile.moc"
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