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tdenetwork/kppp/pppdata.cpp

1487 lines
31 KiB

/*
* kPPP: A pppd front end for the KDE project
*
* $Id$
*
* Copyright (C) 1997 Bernd Johannes Wuebben
* wuebben@math.cornell.edu
*
* based on EzPPP:
* Copyright (C) 1997 Jay Painter
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this program; if not, write to the Free
* Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include "pppdata.h"
#include "runtests.h"
#include "devices.h"
#include <klocale.h>
#include <kconfig.h>
#include <kmessagebox.h>
#include <kapplication.h>
#include <kglobalsettings.h>
#include <assert.h>
PPPData gpppdata;
PPPData::PPPData()
: config(0L),
accounthighcount(-1), // start out with no account entries
caccount(-1), // set the current account index also
modemhighcount(-1), // start out with no modem entries
cmodem(-1), // set the current modem index also
suidprocessid(-1), // process ID of setuid child
pppdisrunning(false),
pppderror(0),
waitcallback(false)
{
}
//
// open configuration file
//
bool PPPData::open() {
config = kapp->config();
if (config->getConfigState() == KConfig::NoAccess) {
KMessageBox::error(0L,
i18n("The application-specific config file could not "
"be opened in either read-write or read-only mode.\n"
"The superuser might have to change its ownership "
"by issuing the following command in your home directory:\n"
"chown {YourUsername} .kde/share/config/kppprc"),
kapp->name());
return false;
}
// don't expand shell variables
config->setDollarExpansion(false);
accounthighcount = readNumConfig(GENERAL_GRP, NUMACCOUNTS_KEY, 0) - 1;
if (accounthighcount > MAX_ACCOUNTS)
accounthighcount = MAX_ACCOUNTS;
if(accounthighcount >= 0 && defaultAccount().isEmpty()) {
setAccountByIndex(0);
setDefaultAccount(accname());
} else if(!setAccount(defaultAccount()))
setDefaultAccount(accname());
modemhighcount = readNumConfig(GENERAL_GRP, NUMMODEMS_KEY, 0) - 1;
if (modemhighcount > MAX_MODEMS)
modemhighcount = MAX_MODEMS;
// if there aren't no ModemX setted and exists the [Modem] group,
// probably it's the first time we are using this new version
// with multiple modem profiles.
// So we copy the old [Modem] to the new [Modem0]
if(modemhighcount < 0 && defaultModem().isEmpty() && config->hasGroup("Modem"))
{
config->setGroup("Modem");
TQMap <TQString, TQString> map = config->entryMap("Modem");
TQMap <TQString, TQString>::ConstIterator it = map.begin();
newmodem();
while (it != map.end()) {
config->setGroup(cmodemgroup);
config->writeEntry(it.key(), *it);
it++;
}
TQString newname("Modem0");
setModname(newname);
}
if(modemhighcount >= 0 && defaultModem().isEmpty()) {
setModemByIndex(0);
setDefaultModem(modname());
} else if(!setModem(defaultModem()))
setDefaultModem(modname());
// start out with internal debugging disabled
// the user is still free to specify `debug' on his own
setPPPDebug(false);
::pppdVersion(&pppdVer, &pppdMod, &pppdPatch);
return true;
}
//
// save configuration
//
void PPPData::save() {
if (config) {
writeConfig(GENERAL_GRP, NUMACCOUNTS_KEY, accountCount());
writeConfig(GENERAL_GRP, NUMMODEMS_KEY, modemCount());
config->sync();
}
}
//
// cancel changes
//
void PPPData::cancel() {
if (config) {
config->rollback();
config->reparseConfiguration();
}
}
// currently differentiates between READWRITE and NONE only
int PPPData::access() const {
return config->getConfigState();
}
// functions to read/write date to configuration file
TQString PPPData::readConfig(const TQString &group, const TQString &key,
const TQString &defvalue = "")
{
if (config) {
config->setGroup(group);
return config->readEntry(key, defvalue);
} else
return defvalue;
}
int PPPData::readNumConfig(const TQString &group, const TQString &key,
int defvalue) {
if (config) {
config->setGroup(group);
return config->readNumEntry(key, defvalue);
} else
return defvalue;
}
bool PPPData::readListConfig(const TQString &group, const TQString &key,
TQStringList &list, char sep) {
list.clear();
if (config) {
config->setGroup(group);
list = config->readListEntry(key, sep);
return true;
} else
return false;
}
void PPPData::writeConfig(const TQString &group, const TQString &key,
const TQString &value) {
if (config) {
config->setGroup(group);
config->writeEntry(key, value);
}
}
void PPPData::writeConfig(const TQString &group, const TQString &key, int value) {
if (config) {
config->setGroup(group);
config->writeEntry(key, value);
}
}
void PPPData::writeListConfig(const TQString &group, const TQString &key,
TQStringList &list, char sep) {
if (config) {
config->setGroup(group);
config->writeEntry(key, list, sep);
}
}
//
// functions to set/return general information
//
TQString PPPData::password() const {
return passwd;
}
void PPPData::setPassword(const TQString &pw) {
passwd = pw;
}
const TQString PPPData::defaultAccount() {
return readConfig(GENERAL_GRP, DEFAULTACCOUNT_KEY);
}
void PPPData::setDefaultAccount(const TQString &n) {
writeConfig(GENERAL_GRP, DEFAULTACCOUNT_KEY, n);
//now set the current account index to the default account
setAccount(defaultAccount());
}
const TQString PPPData::defaultModem() {
return readConfig(GENERAL_GRP, DEFAULTMODEM_KEY);
}
void PPPData::setDefaultModem(const TQString &n) {
writeConfig(GENERAL_GRP, DEFAULTMODEM_KEY, n);
//now set the current modem index to the default modem
setModem(defaultModem());
}
bool PPPData::get_show_clock_on_caption() {
return (bool) readNumConfig(GENERAL_GRP, SHOWCLOCK_KEY, true);
}
void PPPData::set_show_clock_on_caption(bool set) {
writeConfig(GENERAL_GRP, SHOWCLOCK_KEY, (int) set);
}
bool PPPData::get_xserver_exit_disconnect() {
return (bool) readNumConfig(GENERAL_GRP, DISCONNECT_KEY, true);
}
bool PPPData::get_redial_on_nocarrier() {
return (bool) readNumConfig(GENERAL_GRP, REDIALONNOCARR_KEY, false);
}
void PPPData::setPPPDebug(bool set) {
writeConfig(GENERAL_GRP, PPP_DEBUG_OPTION, (int)set);
}
bool PPPData::getPPPDebug() {
return (bool)readNumConfig(GENERAL_GRP, PPP_DEBUG_OPTION, false);
}
void PPPData::set_xserver_exit_disconnect(bool set) {
writeConfig(GENERAL_GRP, DISCONNECT_KEY, (int) set);
}
void PPPData::set_redial_on_nocarrier(bool set) {
writeConfig(GENERAL_GRP, REDIALONNOCARR_KEY, (int) set);
}
bool PPPData::quit_on_disconnect() {
return (bool) readNumConfig(GENERAL_GRP, QUITONDISCONNECT_KEY, false);
}
void PPPData::set_quit_on_disconnect(bool set) {
writeConfig(GENERAL_GRP, QUITONDISCONNECT_KEY, (int) set);
}
bool PPPData::get_show_log_window() {
return (bool) readNumConfig (GENERAL_GRP, SHOWLOGWIN_KEY, false);
}
void PPPData::set_show_log_window(bool set) {
writeConfig(GENERAL_GRP, SHOWLOGWIN_KEY, (int) set);
}
bool PPPData::automatic_redial() {
return (bool) readNumConfig(GENERAL_GRP, AUTOREDIAL_KEY, FALSE);
}
void PPPData::set_automatic_redial(bool set) {
writeConfig(GENERAL_GRP, AUTOREDIAL_KEY, (int) set);
}
bool PPPData::get_iconify_on_connect() {
return (bool) readNumConfig(GENERAL_GRP, ICONIFY_ON_CONNECT_KEY, TRUE);
}
void PPPData::set_iconify_on_connect(bool set) {
writeConfig(GENERAL_GRP, ICONIFY_ON_CONNECT_KEY, (int) set);
}
bool PPPData::get_dock_into_panel() {
return (bool) readNumConfig(GENERAL_GRP, DOCKING_KEY, false);
}
void PPPData::set_dock_into_panel(bool set) {
writeConfig(GENERAL_GRP, DOCKING_KEY, (int) set);
}
TQString PPPData::pppdVersion() {
return TQString("%1.%2.%3").arg(pppdVer).arg(pppdMod).arg(pppdPatch);
}
bool PPPData::pppdVersionMin(int ver, int mod, int patch) {
// check if pppd version fulfills minimum requirement
return (pppdVer > ver
|| (pppdVer == ver && pppdMod > mod)
|| (pppdVer == ver && pppdMod == mod && pppdPatch >= patch));
}
int PPPData::pppdTimeout() {
return readNumConfig(GENERAL_GRP, PPPDTIMEOUT_KEY, PPPD_TIMEOUT);
}
void PPPData::setpppdTimeout(int n) {
writeConfig(GENERAL_GRP, PPPDTIMEOUT_KEY, n);
}
//
// functions to set/return modem information
//
//returns number of modems
int PPPData::modemCount() const {
return modemhighcount + 1;
}
bool PPPData::setModem(const TQString &mname) {
for(int i = 0; i <= modemhighcount; i++) {
setModemByIndex(i);
if(modname() == mname) {
cmodem = i;
return true;
}
}
return false;
}
bool PPPData::setModemByIndex(int i) {
if(i >= 0 && i <= modemhighcount) {
cmodem = i;
cmodemgroup.sprintf("%s%i", MODEM_GRP, i);
return true;
}
return false;
}
bool PPPData::isUniqueModname(const TQString &n) {
int current = cmodem;
for(int i=0; i <= modemhighcount; i++) {
setModemByIndex(i);
if(modname() == n && i != current) {
setModemByIndex(current);
return false;
}
}
setModemByIndex(current);
return true;
}
bool PPPData::deleteModem() {
if(cmodem < 0)
return false;
TQMap <TQString, TQString> map;
TQMap <TQString, TQString>::Iterator it;
// set all entries of the current modem to ""
map = config->entryMap(cmodemgroup);
it = map.begin();
while (it != map.end()) {
config->writeEntry(it.key(), "");
it++;
}
// shift the succeeding modems
for(int i = cmodem+1; i <= modemhighcount; i++) {
setModemByIndex(i);
map = config->entryMap(cmodemgroup);
it = map.begin();
setModemByIndex(i-1);
config->setGroup(cmodemgroup);
while (it != map.end()) {
config->writeEntry(it.key(), *it);
it++;
}
}
// make sure the top modem is cleared
setModemByIndex(modemhighcount);
map = config->entryMap(cmodemgroup);
it = map.begin();
config->setGroup(cmodemgroup);
while (!it.key().isNull()) {
config->writeEntry(it.key(), "");
it++;
}
modemhighcount--;
if(cmodem > modemhighcount)
cmodem = modemhighcount;
setModemByIndex(cmodem);
return true;
}
bool PPPData::deleteModem(const TQString &mname) {
if(!setModem(mname))
return false;
deleteModem();
return true;
}
int PPPData::newmodem() {
if(!config || modemhighcount >= MAX_MODEMS)
return -1;
modemhighcount++;
setModemByIndex(modemhighcount);
setpppdArgumentDefaults();
return cmodem;
}
int PPPData::copymodem(int i) {
config->setGroup(cmodemgroup);
if(modemhighcount >= MAX_MODEMS)
return -1;
setModemByIndex(i);
TQMap <TQString, TQString> map = config->entryMap(cmodemgroup);
TQMap <TQString, TQString>::ConstIterator it = map.begin();
TQString newname = i18n("%1_copy").arg(modname());
newmodem();
while (it != map.end()) {
config->setGroup(cmodemgroup);
config->writeEntry(it.key(), *it);
it++;
}
setModname(newname);
return cmodem;
}
const TQString PPPData::modname() {
return readConfig(cmodemgroup, MOD_NAME_KEY);
}
void PPPData::setModname(const TQString &n) {
if(!cmodemgroup.isNull()) {
// are we manipulating the default modem's name ? then change it, too.
bool def = modname() == defaultModem();
writeConfig(cmodemgroup, MOD_NAME_KEY, n);
if (def)
setDefaultModem(n);
}
}
const TQString PPPData::modemDevice() {
return readConfig (cmodemgroup, MODEMDEV_KEY, devices[DEV_DEFAULT]);
}
void PPPData::setModemDevice(const TQString &n) {
writeConfig(cmodemgroup, MODEMDEV_KEY, n);
}
TQString PPPData::flowcontrol() {
// keep default value in sync with general.cpp
return readConfig(cmodemgroup, FLOWCONTROL_KEY, i18n("Hardware [CRTSCTS]"));
}
void PPPData::setFlowcontrol(const TQString &n) {
writeConfig(cmodemgroup, FLOWCONTROL_KEY, n);
}
const TQString PPPData::speed() {
TQString s = readConfig(cmodemgroup, SPEED_KEY, "57600");
// undo the damage of a bug in former versions. It left an empty Speed=
// entry in kppprc. kppp did set the serial port to 57600 as default but
// pppd wouldn't receive the speed via the command line.
if(s.toUInt() == 0)
s = "57600";
return s;
}
void PPPData::setSpeed(const TQString &n) {
writeConfig(cmodemgroup, SPEED_KEY, n);
}
#if 0
void PPPData::setUseCDLine(const int n) {
writeConfig(cmodemgroup,USECDLINE_KEY,n);
}
int PPPData::UseCDLine() {
return readNumConfig(cmodemgroup,USECDLINE_KEY,0);
}
#endif
const TQString PPPData::modemEscapeStr() {
return readConfig(cmodemgroup,ESCAPESTR_KEY,"+++");
}
void PPPData::setModemEscapeStr(const TQString &n) {
writeConfig(cmodemgroup,ESCAPESTR_KEY,n);
}
const TQString PPPData::modemEscapeResp() {
return readConfig(cmodemgroup,ESCAPERESP_KEY,"OK");
}
void PPPData::setModemEscapeResp(const TQString &n) {
writeConfig(cmodemgroup,ESCAPERESP_KEY,n);
}
int PPPData::modemEscapeGuardTime() {
return readNumConfig(cmodemgroup,ESCAPEGUARDTIME_KEY,50);
}
void PPPData::setModemEscapeGuardTime(int n) {
writeConfig(cmodemgroup,ESCAPEGUARDTIME_KEY,n);
}
bool PPPData::modemLockFile() {
return readNumConfig(cmodemgroup, LOCKFILE_KEY, 1);
}
void PPPData::setModemLockFile(bool set) {
writeConfig(cmodemgroup, LOCKFILE_KEY, set);
}
int PPPData::modemTimeout() {
return readNumConfig(cmodemgroup, TIMEOUT_KEY, MODEM_TIMEOUT);
}
void PPPData::setModemTimeout(int n) {
writeConfig(cmodemgroup, TIMEOUT_KEY, n);
}
int PPPData::modemToneDuration() {
return readNumConfig(cmodemgroup, TONEDURATION_KEY,MODEM_TONEDURATION);
}
void PPPData::setModemToneDuration(int n) {
writeConfig(cmodemgroup, TONEDURATION_KEY, n);
}
int PPPData::busyWait() {
return readNumConfig(cmodemgroup, BUSYWAIT_KEY, BUSY_WAIT);
}
void PPPData::setbusyWait(int n) {
writeConfig(cmodemgroup, BUSYWAIT_KEY, n);
}
//
//Advanced "Modem" dialog
//
// defaults: InitString=ATZ, InitString1="" etc.
const TQString PPPData::modemInitStr(int i) {
assert(i >= 0 && i < NumInitStrings);
if(i == 0)
return readConfig(cmodemgroup, INITSTR_KEY, "ATZ");
else
return readConfig(cmodemgroup, INITSTR_KEY + TQString::number(i), "");
}
void PPPData::setModemInitStr(int i, const TQString &n) {
assert(i >= 0 && i < NumInitStrings);
TQString k = INITSTR_KEY + (i > 0 ? TQString::number(i) : "");
writeConfig(cmodemgroup, k, n);
}
const TQString PPPData::modemInitResp() {
return readConfig(cmodemgroup, INITRESP_KEY, "OK");
}
void PPPData::setModemInitResp(const TQString &n) {
writeConfig(cmodemgroup, INITRESP_KEY, n);
}
int PPPData::modemPreInitDelay() {
return readNumConfig(cmodemgroup, PREINITDELAY_KEY, 50);
}
void PPPData::setModemPreInitDelay(int n) {
writeConfig(cmodemgroup, PREINITDELAY_KEY, n);
}
int PPPData::modemInitDelay() {
return readNumConfig(cmodemgroup, INITDELAY_KEY, 50);
}
void PPPData::setModemInitDelay(int n) {
writeConfig(cmodemgroup, INITDELAY_KEY, n);
}
TQString PPPData::modemNoDialToneDetectionStr() {
return readConfig(cmodemgroup, NODTDETECT_KEY, "ATX3");
}
void PPPData::setModemNoDialToneDetectionStr(const TQString &n) {
writeConfig(cmodemgroup, NODTDETECT_KEY, n);
}
const TQString PPPData::modemDialStr() {
return readConfig(cmodemgroup, DIALSTR_KEY, "ATDT");
}
void PPPData::setModemDialStr(const TQString &n) {
writeConfig(cmodemgroup, DIALSTR_KEY, n);
}
const TQString PPPData::modemConnectResp() {
return readConfig(cmodemgroup, CONNECTRESP_KEY, "CONNECT");
}
void PPPData::setModemConnectResp(const TQString &n) {
writeConfig(cmodemgroup, CONNECTRESP_KEY, n);
}
const TQString PPPData::modemBusyResp() {
return readConfig(cmodemgroup, BUSYRESP_KEY, "BUSY");
}
void PPPData::setModemBusyResp(const TQString &n) {
writeConfig(cmodemgroup, BUSYRESP_KEY, n);
}
const TQString PPPData::modemNoCarrierResp() {
return readConfig(cmodemgroup, NOCARRIERRESP_KEY, "NO CARRIER");
}
void PPPData::setModemNoCarrierResp(const TQString &n) {
writeConfig(cmodemgroup, NOCARRIERRESP_KEY, n);
}
const TQString PPPData::modemNoDialtoneResp() {
return readConfig(cmodemgroup, NODIALTONERESP_KEY, "NO DIALTONE");
}
void PPPData::setModemNoDialtoneResp(const TQString &n) {
writeConfig(cmodemgroup, NODIALTONERESP_KEY, n);
}
const TQString PPPData::modemHangupStr() {
return readConfig(cmodemgroup, HANGUPSTR_KEY, "+++ATH");
}
void PPPData::setModemHangupStr(const TQString &n) {
writeConfig(cmodemgroup, HANGUPSTR_KEY, n);
}
const TQString PPPData::modemHangupResp() {
return readConfig(cmodemgroup, HANGUPRESP_KEY, "OK");
}
void PPPData::setModemHangupResp(const TQString &n) {
writeConfig(cmodemgroup, HANGUPRESP_KEY, n);
}
TQString PPPData::modemDLPResp() {
return readConfig(cmodemgroup, DLPRESP_KEY, "DIGITAL LINE DETECTED");
}
void PPPData::setModemDLPResp(const TQString &n) {
writeConfig(cmodemgroup, DLPRESP_KEY, n);
}
const TQString PPPData::modemAnswerStr() {
return readConfig(cmodemgroup, ANSWERSTR_KEY, "ATA");
}
TQString PPPData::volumeOff() {
return readConfig(cmodemgroup, VOLUME_OFF, "M0L0");
}
void PPPData::setVolumeOff(const TQString &s) {
writeConfig(cmodemgroup, VOLUME_OFF, s);
}
TQString PPPData::volumeMedium() {
return readConfig(cmodemgroup, VOLUME_MEDIUM, "M1L1");
}
void PPPData::setVolumeMedium(const TQString &s) {
writeConfig(cmodemgroup, VOLUME_MEDIUM, s);
}
TQString PPPData::volumeHigh() {
TQString tmp = readConfig(cmodemgroup, VOLUME_HIGH, "M1L3");
if(tmp == "M1L4")
tmp = "M1L3";
return tmp;
}
void PPPData::setVolumeHigh(const TQString &s) {
writeConfig(cmodemgroup, VOLUME_HIGH, s);
}
TQString PPPData::volumeInitString() {
TQString s;
switch(volume()) {
case 0:
s = volumeOff();
break;
case 1:
s = volumeMedium();
break;
case 2:
s = volumeHigh();
break;
default:
s = volumeMedium();
}
return s;
}
int PPPData::volume() {
return readNumConfig(cmodemgroup, VOLUME_KEY, 1);
}
void PPPData::setVolume(int i) {
writeConfig(cmodemgroup, VOLUME_KEY, i);
}
int PPPData::waitForDialTone() {
return readNumConfig(cmodemgroup, DIALTONEWAIT_KEY, 1);
}
void PPPData::setWaitForDialTone(int i) {
writeConfig(cmodemgroup, DIALTONEWAIT_KEY, i);
}
void PPPData::setModemAnswerStr(const TQString &n) {
writeConfig(cmodemgroup, ANSWERSTR_KEY, n);
}
const TQString PPPData::modemRingResp() {
return readConfig(cmodemgroup, RINGRESP_KEY, "RING");
}
void PPPData::setModemRingResp(const TQString &n) {
writeConfig(cmodemgroup, RINGRESP_KEY, n);
}
const TQString PPPData::modemAnswerResp() {
return readConfig(cmodemgroup, ANSWERRESP_KEY, "CONNECT");
}
void PPPData::setModemAnswerResp(const TQString &n) {
writeConfig(cmodemgroup, ANSWERRESP_KEY, n);
}
const TQString PPPData::enter() {
return readConfig(cmodemgroup, ENTER_KEY, "CR");
}
void PPPData::setEnter(const TQString &n) {
writeConfig(cmodemgroup, ENTER_KEY, n);
}
//
// functions to set/return account information
//
//returns number of accounts
int PPPData::accountCount() const {
return accounthighcount + 1;
}
bool PPPData::setAccount(const TQString &aname) {
for(int i = 0; i <= accounthighcount; i++) {
setAccountByIndex(i);
if(accname() == aname) {
caccount = i;
return true;
}
}
return false;
}
bool PPPData::setAccountByIndex(int i) {
if(i >= 0 && i <= accounthighcount) {
caccount = i;
caccountgroup.sprintf("%s%i", ACCOUNT_GRP, i);
return true;
}
return false;
}
bool PPPData::isUniqueAccname(const TQString &n) {
if(n.contains(':'))
return false;
int current = caccount;
for(int i=0; i <= accounthighcount; i++) {
setAccountByIndex(i);
if(accname() == n && i != current) {
setAccountByIndex(current);
return false;
}
}
setAccountByIndex(current);
return true;
}
bool PPPData::deleteAccount() {
if(caccount < 0)
return false;
TQMap <TQString, TQString> map;
TQMap <TQString, TQString>::Iterator it;
// set all entries of the current account to ""
map = config->entryMap(caccountgroup);
it = map.begin();
while (it != map.end()) {
config->writeEntry(it.key(), "");
it++;
}
// shift the succeeding accounts
for(int i = caccount+1; i <= accounthighcount; i++) {
setAccountByIndex(i);
map = config->entryMap(caccountgroup);
it = map.begin();
setAccountByIndex(i-1);
config->setGroup(caccountgroup);
while (it != map.end()) {
config->writeEntry(it.key(), *it);
it++;
}
}
// make sure the top account is cleared
setAccountByIndex(accounthighcount);
map = config->entryMap(caccountgroup);
it = map.begin();
config->setGroup(caccountgroup);
while (!it.key().isNull()) {
config->writeEntry(it.key(), "");
it++;
}
accounthighcount--;
if(caccount > accounthighcount)
caccount = accounthighcount;
setAccountByIndex(caccount);
return true;
}
bool PPPData::deleteAccount(const TQString &aname) {
if(!setAccount(aname))
return false;
deleteAccount();
return true;
}
int PPPData::newaccount() {
if(!config || accounthighcount >= MAX_ACCOUNTS)
return -1;
accounthighcount++;
setAccountByIndex(accounthighcount);
setpppdArgumentDefaults();
return caccount;
}
int PPPData::copyaccount(int i) {
config->setGroup(caccountgroup);
if(accounthighcount >= MAX_ACCOUNTS)
return -1;
setAccountByIndex(i);
TQMap <TQString, TQString> map = config->entryMap(caccountgroup);
TQMap <TQString, TQString>::ConstIterator it = map.begin();
TQString newname = i18n("%1_copy").arg(accname());
newaccount();
while (it != map.end()) {
config->setGroup(caccountgroup);
config->writeEntry(it.key(), *it);
it++;
}
setAccname(newname);
return caccount;
}
const TQString PPPData::accname() {
return readConfig(caccountgroup, ACC_NAME_KEY);
}
void PPPData::setAccname(const TQString &n) {
if(!caccountgroup.isNull()) {
// are we manipulating the default account's name ? then change it, too.
bool def = accname() == defaultAccount();
writeConfig(caccountgroup, ACC_NAME_KEY, n);
if (def)
setDefaultAccount(n);
}
}
#define SEPARATOR_CHAR ':'
TQStringList &PPPData::phonenumbers() {
readListConfig(caccountgroup, PHONENUMBER_KEY, phonelist, SEPARATOR_CHAR);
return phonelist;
}
const TQString PPPData::phonenumber() {
return readConfig(caccountgroup, PHONENUMBER_KEY);
}
void PPPData::setPhonenumber(const TQString &n) {
writeConfig(caccountgroup, PHONENUMBER_KEY, n);
}
const TQString PPPData::dialPrefix() {
return readConfig(caccountgroup, DIAL_PREFIX_KEY, "");
}
void PPPData::setDialPrefix(const TQString &s) {
writeConfig(caccountgroup, DIAL_PREFIX_KEY, s);
}
int PPPData::authMethod() {
return readNumConfig(caccountgroup, AUTH_KEY, 0);
}
void PPPData::setAuthMethod(int value) {
writeConfig(caccountgroup, AUTH_KEY, value);
}
const TQString PPPData::storedUsername() {
return readConfig(caccountgroup, STORED_USERNAME_KEY, "");
}
void PPPData::setStoredUsername(const TQString &b) {
writeConfig(caccountgroup, STORED_USERNAME_KEY, b);
}
const TQString PPPData::storedPassword() {
return readConfig(caccountgroup, STORED_PASSWORD_KEY, "");
}
void PPPData::setStoredPassword(const TQString &b) {
writeConfig(caccountgroup, STORED_PASSWORD_KEY, b);
}
bool PPPData::storePassword() {
return (bool)readNumConfig(caccountgroup, STORE_PASSWORD_KEY, 1);
}
int PPPData::callbackType() {
return readNumConfig(caccountgroup, CALLBACK_TYPE_KEY, 0);
}
void PPPData::setCallbackType(int value) {
writeConfig(caccountgroup, CALLBACK_TYPE_KEY, value);
}
TQString PPPData::callbackPhone() {
return readConfig(caccountgroup, CALLBACK_PHONE_KEY, "");
}
void PPPData::setCallbackPhone(const TQString &b) {
writeConfig(caccountgroup, CALLBACK_PHONE_KEY, b);
}
bool PPPData::waitCallback() {
return waitcallback;
}
void PPPData::setWaitCallback(bool value) {
waitcallback = value;
}
const TQString PPPData::command_before_connect() {
return readConfig(caccountgroup, BEFORE_CONNECT_KEY);
}
void PPPData::setCommand_before_connect(const TQString &n) {
writeConfig(caccountgroup, BEFORE_CONNECT_KEY, n);
}
void PPPData::setStorePassword(bool b) {
writeConfig(caccountgroup, STORE_PASSWORD_KEY, (int)b);
}
const TQString PPPData::command_on_connect() {
return readConfig(caccountgroup, COMMAND_KEY);
}
void PPPData::setCommand_on_connect(const TQString &n) {
writeConfig(caccountgroup, COMMAND_KEY, n);
}
const TQString PPPData::command_on_disconnect() {
return readConfig(caccountgroup, DISCONNECT_COMMAND_KEY);
}
void PPPData::setCommand_on_disconnect(const TQString &n) {
writeConfig(caccountgroup, DISCONNECT_COMMAND_KEY, n);
}
const TQString PPPData::command_before_disconnect() {
return readConfig(caccountgroup, BEFORE_DISCONNECT_KEY);
}
void PPPData::setCommand_before_disconnect(const TQString &n) {
writeConfig(caccountgroup, BEFORE_DISCONNECT_KEY, n);
}
const TQString PPPData::ipaddr() {
return readConfig(caccountgroup, IPADDR_KEY);
}
void PPPData::setIpaddr(const TQString &n) {
writeConfig(caccountgroup, IPADDR_KEY, n);
}
const TQString PPPData::subnetmask() {
return readConfig(caccountgroup, SUBNETMASK_KEY);
}
void PPPData::setSubnetmask(const TQString &n) {
writeConfig(caccountgroup, SUBNETMASK_KEY, n);
}
bool PPPData::autoname() {
return (bool) readNumConfig(caccountgroup, AUTONAME_KEY, false);
}
void PPPData::setAutoname(bool set) {
writeConfig(caccountgroup, AUTONAME_KEY, (int) set);
}
bool PPPData::AcctEnabled() {
return (bool) readNumConfig(caccountgroup, ACCTENABLED_KEY, false);
}
void PPPData::setAcctEnabled(bool set) {
writeConfig(caccountgroup, ACCTENABLED_KEY, (int) set);
}
int PPPData::VolAcctEnabled() {
return readNumConfig(caccountgroup, VOLACCTENABLED_KEY, 0);
}
void PPPData::setVolAcctEnabled(int set) {
writeConfig(caccountgroup, VOLACCTENABLED_KEY, set);
}
const TQString PPPData::gateway() {
return readConfig(caccountgroup, GATEWAY_KEY);
}
void PPPData::setGateway(const TQString &n ) {
writeConfig(caccountgroup, GATEWAY_KEY, n);
}
bool PPPData::defaultroute() {
// default route is by default 'on'.
return (bool) readNumConfig(caccountgroup, DEFAULTROUTE_KEY, true);
}
void PPPData::setDefaultroute(bool set) {
writeConfig(caccountgroup, DEFAULTROUTE_KEY, (int) set);
}
bool PPPData::autoDNS() {
bool set = (bool) readNumConfig(caccountgroup, AUTODNS_KEY, true);
return (set && gpppdata.pppdVersionMin(2, 3, 7));
}
void PPPData::setAutoDNS(bool set) {
writeConfig(caccountgroup, AUTODNS_KEY, (int) set);
}
void PPPData::setExDNSDisabled(bool set) {
writeConfig(caccountgroup, EXDNSDISABLED_KEY, (int) set);
}
bool PPPData::exDNSDisabled() {
return (bool) readNumConfig(caccountgroup, EXDNSDISABLED_KEY,0);
}
TQStringList &PPPData::dns() {
static TQStringList dnslist;
readListConfig(caccountgroup, DNS_KEY, dnslist);
while(dnslist.count() > MAX_DNS_ENTRIES)
dnslist.remove(dnslist.last());
return dnslist;
}
void PPPData::setDns(TQStringList &list) {
writeListConfig(caccountgroup, DNS_KEY, list);
}
const TQString PPPData::domain() {
return readConfig(caccountgroup, DOMAIN_KEY);
}
void PPPData::setDomain(const TQString &n ) {
writeConfig(caccountgroup, DOMAIN_KEY, n);
}
TQStringList &PPPData::scriptType() {
static TQStringList typelist;
readListConfig(caccountgroup, SCRIPTCOM_KEY, typelist);
while(typelist.count() > MAX_SCRIPT_ENTRIES)
typelist.remove(typelist.last());
return typelist;
}
void PPPData::setScriptType(TQStringList &list) {
writeListConfig(caccountgroup, SCRIPTCOM_KEY, list);
}
TQStringList &PPPData::script() {
static TQStringList scriptlist;
readListConfig(caccountgroup, SCRIPTARG_KEY, scriptlist);
while(scriptlist.count() > MAX_SCRIPT_ENTRIES)
scriptlist.remove(scriptlist.last());
return scriptlist;
}
void PPPData::setScript(TQStringList &list) {
writeListConfig(caccountgroup, SCRIPTARG_KEY, list);
}
const TQString PPPData::accountingFile() {
return readConfig(caccountgroup, ACCTFILE_KEY);
}
void PPPData::setAccountingFile(const TQString &n) {
writeConfig(caccountgroup, ACCTFILE_KEY, n);
}
const TQString PPPData::totalCosts() {
return readConfig(caccountgroup, TOTALCOSTS_KEY);
}
void PPPData::setTotalCosts(const TQString &n) {
writeConfig(caccountgroup, TOTALCOSTS_KEY, n);
}
int PPPData::totalBytes() {
return readNumConfig(caccountgroup, TOTALBYTES_KEY, 0);
}
void PPPData::setTotalBytes(int n) {
writeConfig(caccountgroup, TOTALBYTES_KEY, n);
}
TQStringList &PPPData::pppdArgument() {
static TQStringList arglist;
while(arglist.count() > MAX_PPPD_ARGUMENTS)
arglist.remove(arglist.last());
readListConfig(caccountgroup, PPPDARG_KEY, arglist);
return arglist;
}
void PPPData::setpppdArgument(TQStringList &args) {
writeListConfig(caccountgroup, PPPDARG_KEY, args);
}
void PPPData::setpppdArgumentDefaults() {
TQStringList arg;
setpppdArgument(arg);
}
// graphing widget
void PPPData::setGraphingOptions(bool enable,
TQColor bg,
TQColor text,
TQColor in,
TQColor out)
{
if(config) {
config->setGroup(GRAPH_GRP);
config->writeEntry(GENABLED, enable);
config->writeEntry(GCOLOR_BG, bg);
config->writeEntry(GCOLOR_TEXT, text);
config->writeEntry(GCOLOR_IN, in);
config->writeEntry(GCOLOR_OUT, out);
}
}
void PPPData::graphingOptions(bool &enable,
TQColor &bg,
TQColor &text,
TQColor &in,
TQColor &out)
{
TQColor c;
if(config) {
config->setGroup(GRAPH_GRP);
enable = config->readBoolEntry(GENABLED, true);
c = TQt::white;
bg = config->readColorEntry(GCOLOR_BG, &c);
c = TQt::black;
text = config->readColorEntry(GCOLOR_TEXT, &c);
c = TQt::blue;
in = config->readColorEntry(GCOLOR_IN, &c);
c = TQt::red;
out = config->readColorEntry(GCOLOR_OUT, &c);
}
}
bool PPPData::graphingEnabled() {
if(config) {
config->setGroup(GRAPH_GRP);
return config->readBoolEntry(GENABLED, true);
}
else return true;
}
//
//functions to change/set the child pppd process info
//
bool PPPData::pppdRunning() const {
return pppdisrunning;
}
void PPPData::setpppdRunning(bool set) {
pppdisrunning = set;
}
int PPPData::pppdError() const {
return pppderror;
}
void PPPData::setpppdError(int err) {
pppderror = err;
}
//
// window position
//
void PPPData::winPosConWin(int& p_x, int& p_y) {
TQRect desk = KGlobalSettings::splashScreenDesktopGeometry();
p_x = readNumConfig(WINPOS_GRP, WINPOS_CONWIN_X, desk.center().x()-160);
p_y = readNumConfig(WINPOS_GRP, WINPOS_CONWIN_Y, desk.center().y()-55);
}
void PPPData::setWinPosConWin(int p_x, int p_y) {
writeConfig(WINPOS_GRP, WINPOS_CONWIN_X, p_x);
writeConfig(WINPOS_GRP, WINPOS_CONWIN_Y, p_y);
}
void PPPData::winPosStatWin(int& p_x, int& p_y) {
TQRect desk = KGlobalSettings::splashScreenDesktopGeometry();
p_x = readNumConfig(WINPOS_GRP, WINPOS_STATWIN_X, desk.center().x()-160);
p_y = readNumConfig(WINPOS_GRP, WINPOS_STATWIN_Y, desk.center().y()-55);
}
void PPPData::setWinPosStatWin(int p_x, int p_y) {
writeConfig(WINPOS_GRP, WINPOS_STATWIN_X, p_x);
writeConfig(WINPOS_GRP, WINPOS_STATWIN_Y, p_y);
}