/*
* Copyright (c) 2002 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description: Principal parser for supplementary service procedures.
*
*/
// INCLUDE FILES
#include <bldvariant.hrh>
#include <featmgr.h>
#include <nwdefs.h>
#include "cphonegsmssparser.h"
#include "cphonegsmparserresult.h"
#include "phonegsmparser.h"
#include "cphonegsmoptioncontainer.h"
#include "cphoneparserfeatures.h"
// CONSTANTS
// Granularity of service array
const TInt KPhoneServiceArrayGranularity = 20;
// Activation starts with *. See also registration.
_LIT( KPhoneSsActivation, "*" );
// Deactivation starts with #.
_LIT( KPhoneSsDeactivation, "#" );
// Interrogation starts with *#.
_LIT( KPhoneSsInterrogation, "*#" );
// Registration starts with ** OR *. Case * is handled in the code.
_LIT( KPhoneSsRegistration, "**" );
// Erasure starts with ##.
_LIT( KPhoneSsErasure, "##" );
// It defines characters that can be used in these prefixes (see above).
_LIT( KPhoneSsActionCharacters, "*#" );
// It defines string that ends all ss requests.
_LIT( KPhoneSsEnd, "#" );
// It defines characters that are considered to be digits.
_LIT( KPhoneSsDigits, "1234567890" );
// Asterisk.
const TInt KPhoneSsAsterisk = '*';
// Hash.
const TInt KPhoneSsHash = '#';
// Plus.
const TInt KPhoneSsPlus = '+';
// Remainder: single character
const TInt KPhoneSsRemainderSingle = 1;
// Remainder: still a parameter, but ok ss
const TInt KPhoneSsRemainderMinLength = 2; // something + #
const TInt KPhoneSsPasswordLength = 4;
// Remainder: passwordk, ok ss
const TInt KPhoneSsRemainderPasswordMinLength = 5; // four digits + #
// Maximum length of directory number.
const TInt KPhoneSsDirectoryNumberMaxLength = 38;
// Maximum length of basic service code.
const TInt KPhoneSsBasicCodeMaxLength = 2;
// Maximum length of group code.
const TInt KPhoneSsGroupCodeMaxLength = 4;
// Maximum length of timer.
const TInt KPhoneSsTimerMaxLength = 2;
// The only acceptable group code (change of barring password)
const TUint KPhoneSsOnlyAllowedGroupCode = 330;
// Pack: shift
const TInt KPhoneGsmPackShift = 8;
// Pack: mask
const TInt KPhoneGsmPackMask = 255;
// -----------------------------------------------------------------------------
// Syntax:
//
// SC Service code
// A Activation
// D Deactivation
// I Interrogation
// R Registration
// E Erasure
//
// Text string must contain each of these in the following order
// "SC A D I R E" (separated by space). Following values correspond
//
//
// 0 - ENotAllowed
// 1 - ENoParameters
// 2 - EEmptyOrBasicCode
// 3 - ENumberOptBasicCodeOptTimer
// 4 - ENumberOptBasicCode
// 5 - EPasswordOptBasicCode
// 6 - EOptGroupCodePasswordNewPasswordNewPassword
// 7 - EEmptyOrBasicCode2
// -----------------------------------------------------------------------------
_LIT( KPhoneUidForwardingAllCode, "002 2 2 0 3 2" );
_LIT( KPhoneUidForwardingAllConditionalCode, "004 2 2 0 3 2" );
_LIT( KPhoneUidForwardingUnconditionalCode, "21 2 2 2 4 2" );
_LIT( KPhoneUidForwardingNoReplyCode, "61 2 2 2 3 2" );
_LIT( KPhoneUidForwardingNotReachableCode, "62 2 2 2 4 2" );
_LIT( KPhoneUidForwardingBusyCode, "67 2 2 2 4 2" );
_LIT( KPhoneUidBarringAllOutgoingCallsCode, "33 5 5 1 0 0" );
_LIT( KPhoneUidBarringAllIncomingCallsCode, "35 5 5 1 0 0" );
_LIT( KPhoneUidBarringAllServicesCode, "330 0 5 0 0 0" );
_LIT( KPhoneUidBarringAllOutgoingInternationalCallsCode, "331 5 5 1 0 0" );
_LIT( KPhoneUidBarringAllOutgoingInternationalCallsExceptHomeCode, "332 5 5 1 0 0" );
_LIT( KPhoneUidBarringAllOutgoingServicesCode, "333 0 5 0 0 0" );
_LIT( KPhoneUidBarringAllIncomingCallsWhenRoamingCode, "351 5 5 1 0 0" );
_LIT( KPhoneUidBarringAllIncomingServicesCode, "353 0 5 0 0 0" );
_LIT( KPhoneUidWaitingCode, "43 7 7 7 0 0" );
_LIT( KPhoneUidCallingLineIdentificationPresentationCode, "30 0 0 1 0 0" );
_LIT( KPhoneUidCallingLineIdentificationRestrictionCode, "31 0 0 1 0 0" );
_LIT( KPhoneUidConnectedLinePresentationCode, "76 0 0 1 0 0" );
_LIT( KPhoneUidConnectedLinePresentationRestrictionCode, "77 0 0 1 0 0" );
_LIT( KPhoneUidPasswordCode, "03 6 0 0 6 0" );
_LIT( KPhoneUidCallingNamePresentationCode, "300 0 0 1 0 0" );
// ============================ MEMBER FUNCTIONS ===============================
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::CPhoneGsmSsParser
// -----------------------------------------------------------------------------
//
CPhoneGsmSsParser::CPhoneGsmSsParser()
{
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::ConstructL
// -----------------------------------------------------------------------------
//
void CPhoneGsmSsParser::ConstructL()
{
iArray =
new ( ELeave ) CServiceArray(
KPhoneServiceArrayGranularity );
// Check AddL method for details what these really mean.
// Forwarding
AddL( KPhoneUidForwardingAllCode,
KPhoneUidForwardingAll );
AddL( KPhoneUidForwardingAllConditionalCode,
KPhoneUidForwardingAllConditional );
AddL( KPhoneUidForwardingUnconditionalCode,
KPhoneUidForwardingUnconditional );
AddL( KPhoneUidForwardingNoReplyCode,
KPhoneUidForwardingNoReply );
AddL( KPhoneUidForwardingNotReachableCode,
KPhoneUidForwardingNotReachable );
AddL( KPhoneUidForwardingBusyCode,
KPhoneUidForwardingBusy );
// Barring
AddL( KPhoneUidBarringAllOutgoingCallsCode,
KPhoneUidBarringAllOutgoingCalls );
AddL( KPhoneUidBarringAllIncomingCallsCode,
KPhoneUidBarringAllIncomingCalls );
AddL( KPhoneUidBarringAllServicesCode,
KPhoneUidBarringAllServices );
AddL( KPhoneUidBarringAllOutgoingInternationalCallsCode,
KPhoneUidBarringAllOutgoingInternationalCalls );
AddL( KPhoneUidBarringAllOutgoingInternationalCallsExceptHomeCode,
KPhoneUidBarringAllOutgoingInternationalCallsExceptHome );
AddL( KPhoneUidBarringAllOutgoingServicesCode,
KPhoneUidBarringAllOutgoingServices );
AddL( KPhoneUidBarringAllIncomingCallsWhenRoamingCode,
KPhoneUidBarringAllIncomingCallsWhenRoaming );
AddL( KPhoneUidBarringAllIncomingServicesCode,
KPhoneUidBarringAllIncomingServices );
// Waiting
AddL( KPhoneUidWaitingCode,
KPhoneUidWaiting );
// Calling line identification presentation
AddL( KPhoneUidCallingLineIdentificationPresentationCode,
KPhoneUidCallingLineIdentificationPresentation );
// Calling line identification restriction
AddL( KPhoneUidCallingLineIdentificationRestrictionCode,
KPhoneUidCallingLineIdentificationRestriction );
// Connected line presentation
AddL( KPhoneUidConnectedLinePresentationCode,
KPhoneUidConnectedLinePresentation );
// Connected line presentation restriction.
AddL( KPhoneUidConnectedLinePresentationRestrictionCode,
KPhoneUidConnectedLinePresentationRestriction );
// CNAP.
if ( CPhoneParserFeatures::FeatureSupported( KFeatureIdPhoneCnap ) )
{
AddL( KPhoneUidCallingNamePresentationCode,
KPhoneUidCallingNamePresentation );
}
// Password
AddL( KPhoneUidPasswordCode,
KPhoneUidPassword );
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::NewLC
// -----------------------------------------------------------------------------
//
CPhoneGsmSsParser* CPhoneGsmSsParser::NewLC()
{
CPhoneGsmSsParser* self = new ( ELeave ) CPhoneGsmSsParser;
CleanupStack::PushL( self );
self->ConstructL();
return self;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::~CPhoneGsmSsParser
// -----------------------------------------------------------------------------
//
CPhoneGsmSsParser::~CPhoneGsmSsParser()
{
delete iArray;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::ParseL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::ParseL(
const TDesC& aString,
CPhoneGsmParserResult& aResult,
CPhoneGsmOptionContainerBase& aOptions )
{
TBool result = EFalse;
aResult.ClearL();
// All operations require SEND.
// If VoIP call no action needed here.
if ( !aOptions.FindOptionStatus( KPhoneOptionSend ) ||
aOptions.FindOptionStatus( KPhoneOptionVoipCall ) )
{
return EFalse;
}
TLex input( aString );
TPtrC action(
FindString(
input,
KPhoneSsActionCharacters() ) );
// Check if action is proper for service requests.
TServiceType type = EServiceActivation;
// This variable will indicate if action was ok.
TBool ok = ETrue;
// Fill type.
if ( action == KPhoneSsActivation )
{
type = EServiceActivation;
}
else if ( action == KPhoneSsDeactivation )
{
type = EServiceDeactivation;
}
else if ( action == KPhoneSsInterrogation )
{
type = EServiceInterrogation;
}
else if ( action == KPhoneSsRegistration )
{
type = EServiceRegistration;
}
else if ( action == KPhoneSsErasure )
{
type = EServiceErasure;
}
else
{
// Not ok.
ok = EFalse;
}
// Prefix must be one of the service types.
if ( ok )
{
TPtrC serviceCode( FindString( input, KPhoneSsDigits() ) );
// Check that service code is not too long.
if ( serviceCode.Length() > KPhoneGsmSsServiceCodeMaxLength )
{
return EFalse;
}
TKeyArrayFix key( _FOFF( TServiceInfo, iCode ), ECmpNormal );
TServiceInfo info;
TInt position;
info.iCode = serviceCode;
// Check if the string can be a service request.
if ( !iArray->FindIsq( info, key, position ) )
{
info = iArray->At( position );
}
else
{
// Not found.
return EFalse;
}
TServiceSyntax syntax = ESyntaxNotAllowed;
// Take syntax from info record.
switch ( type )
{
case EServiceActivation:
syntax = info.iActivation;
break;
case EServiceDeactivation:
syntax = info.iDeactivation;
break;
case EServiceInterrogation:
syntax = info.iInterrogation;
break;
case EServiceRegistration:
syntax = info.iRegistration;
break;
case EServiceErasure:
syntax = info.iErasure;
break;
default:
PhoneGsmParser::Panic( PhoneGsmParser::EShouldNeverHappen );
break;
}
TUint data;
PackData( data, type, syntax );
aResult.SetUid( info.iUid );
aResult.SetAuxInformation( data );
// We may have to backtrack in case HandleParametersL fails.
TLexMark mark;
input.Mark( mark );
// First attempt
result = HandleParametersL( input, aResult, syntax );
// If action was activation and result was failure, then try registration.
if ( !result && type == EServiceActivation )
{
// Backtrack.
input.UnGetToMark( mark );
// Clear previous results & fill information again.
type = EServiceRegistration;
syntax = info.iRegistration;
PackData( data, type, syntax );
aResult.ClearL();
aResult.SetUid( info.iUid );
aResult.SetAuxInformation( data );
// Try again. If this fails, then it is really failure.
result = HandleParametersL( input, aResult, syntax );
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::PackData
//
// Combine data to integer.
// -----------------------------------------------------------------------------
//
void CPhoneGsmSsParser::PackData(
TUint& aResult,
TServiceType aType,
TServiceSyntax aSyntax )
{
aResult =
( ( ( TUint )aType ) << KPhoneGsmPackShift ) + ( ( TUint )aSyntax );
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::UnpackData
//
// Take data from integer.
// -----------------------------------------------------------------------------
//
void CPhoneGsmSsParser::UnpackData(
TUint aData,
TServiceType& aResultType,
TServiceSyntax& aResultSyntax )
{
aResultSyntax =
CPhoneGsmSsParser::TServiceSyntax( aData & KPhoneGsmPackMask );
aResultType =
CPhoneGsmSsParser::TServiceType(
( aData >> KPhoneGsmPackShift ) &
KPhoneGsmPackMask );
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleParametersL
//
// Selects correct function by syntax information.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleParametersL(
TLex& aInput,
CPhoneGsmParserResult& aResult,
TServiceSyntax aSyntax )
{
TBool result = EFalse;
switch ( aSyntax )
{
case ESyntaxNotAllowed:
result =
HandleNotAllowedL( aInput, aResult );
break;
case ESyntaxNoParameters:
result =
HandleNoParametersL( aInput, aResult );
break;
case ESyntaxEmptyOrBasicCode:
result =
HandleEmptyOrBasicCodeL( aInput, aResult );
break;
case ESyntaxNumberOptBasicCodeOptTimer:
result =
HandleNumberOptBasicCodeOptTimerL(
aInput,
aResult );
break;
case ESyntaxNumberOptBasicCode:
result =
HandleNumberOptBasicCodeL(
aInput,
aResult );
break;
case ESyntaxPasswordOptBasicCode:
result =
HandlePasswordOptBasicCodeL(
aInput,
aResult );
break;
case ESyntaxOptGroupCodePasswordNewPasswordNewPassword:
result =
HandleOptGroupCodePasswordNewPasswordNewPasswordL(
aInput,
aResult );
break;
case ESyntaxEmptyOrBasicCode2:
result =
HandleEmptyOrBasicCode2L(
aInput,
aResult );
break;
default:
break;
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleNotAllowedL
//
// Just clear the result and return that parsing failed.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleNotAllowedL(
TLex& /*aInput*/,
CPhoneGsmParserResult& aResult )
{
aResult.ClearL();
return EFalse;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleNoParametersL
//
// Handle no more parameters, only hash
// as the last character.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleNoParametersL(
TLex& aInput,
CPhoneGsmParserResult& /*aResult*/ )
{
// Next character is last character and it is hash character.
TBool result = EFalse;
TPtrC ptr = aInput.Remainder();
if ( ptr.Length() == KPhoneSsRemainderSingle )
{
result = ( ptr[0] == KPhoneSsHash );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleEmptyOrBasicCodeL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleEmptyOrBasicCodeL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
if ( HandleNoParametersL( aInput, aResult ) )
{
aResult.AddParameterL( KNullDesC );
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
else
{
result = HandleEmptyParameterL( aInput, aResult );
if ( result )
{
result = HandleBasicCodeL( aInput, aResult );
result = result && HandleNoParametersL( aInput, aResult );
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleNumberOptBasicCodeOptTimerL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleNumberOptBasicCodeOptTimerL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
if ( HandleNumberL( aInput, aResult ) )
{
if ( HandleNoParametersL( aInput, aResult ) )
{
// Add basic code and timer.
aResult.AddParameterL( KNullDesC );
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
else
{
if ( HandleBasicCodeL( aInput, aResult ) )
{
if ( HandleTimerL( aInput, aResult ) )
{
result = HandleNoParametersL( aInput, aResult );
}
else
{
result = HandleNoParametersL( aInput, aResult );
aResult.AddParameterL( KNullDesC );
}
}
else if ( HandleEmptyParameterL( aInput, aResult ) )
{
result = HandleTimerL( aInput, aResult );
result = result &&
HandleNoParametersL( aInput, aResult );
}
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleNumberOptBasicCodeL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleNumberOptBasicCodeL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
if ( HandleNumberL( aInput, aResult ) )
{
if ( HandleNoParametersL( aInput, aResult ) )
{
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
else
{
result = HandleBasicCodeL( aInput, aResult );
result = result && HandleNoParametersL( aInput, aResult );
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandlePasswordOptBasicCodeL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandlePasswordOptBasicCodeL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
if ( HandlePasswordL( aInput, aResult ) )
{
if ( HandleNoParametersL( aInput, aResult ) )
{
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
else
{
result = HandleBasicCodeL( aInput, aResult );
result = result && HandleNoParametersL( aInput, aResult );
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::
// HandleOptGroupCodePasswordNewPasswordNewPasswordL
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::
HandleOptGroupCodePasswordNewPasswordNewPasswordL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = HandleGroupCodeL( aInput, aResult );
if ( !result )
{
result = HandleEmptyParameterL( aInput, aResult );
}
result = result && HandlePasswordL( aInput, aResult );
result = result && HandlePasswordL( aInput, aResult );
result = result && HandlePasswordL( aInput, aResult );
result = result && HandleNoParametersL( aInput, aResult );
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleEmptyOrBasicCode2L
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleEmptyOrBasicCode2L(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = HandleNoParametersL( aInput, aResult );
if ( result )
{
aResult.AddParameterL( KNullDesC );
}
else
{
result = HandleBasicCodeL( aInput, aResult );
result = result && HandleNoParametersL( aInput, aResult );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleEmptyParameterL
//
// Handle empty parameter, two consecutive asterisks.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleEmptyParameterL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
aInput.Mark();
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
result = ( aInput.Peek() == KPhoneSsAsterisk );
if ( result )
{
aResult.AddParameterL( KNullDesC );
}
}
if ( !result )
{
aInput.UnGetToMark();
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleBasicCodeL
//
// Basically, basic service code is a two digit string.
// In this method, only explicit
// values are handled (parameter might be empty).
//
// The method checks that the first character is * and then
// it is followed by two digits. And there must not be more
// than two digits.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleBasicCodeL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
TLexMark start;
aInput.Mark( start );
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
TLexMark mark;
aInput.Mark( mark );
if ( aInput.Peek().IsDigit() )
{
aInput.Inc();
if ( aInput.Peek().IsDigit() )
{
aInput.Inc();
if ( !aInput.Peek().IsDigit() )
{
TPtrC code = aInput.MarkedToken( mark );
result = CheckBasicCode( code );
if ( result )
{
aResult.AddParameterL( code );
}
}
}
}
// Check empty parameters.
if ( !result )
{
aInput.UnGetToMark( mark );
if ( aInput.Remainder() == KPhoneSsEnd )
{
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
}
}
if ( !result )
{
aInput.UnGetToMark( start );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleNumberL
//
// Directory number as a parameter must be present. It can
// contain at most 38 digits. Digits and '+' characters
// are allowed, but '+' character is allowed to be only in the
// beginning of the string.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleNumberL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
if ( aInput.Remainder().Length() < KPhoneSsRemainderMinLength )
{
return EFalse;
}
TInt maxLength = KPhoneSsDirectoryNumberMaxLength;
TBool result = EFalse;
TLexMark start;
aInput.Mark( start );
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
TLexMark mark;
aInput.Mark( mark );
if ( aInput.Peek() == KPhoneSsPlus )
{
aInput.Inc();
maxLength++;
}
while ( aInput.Peek().IsDigit() )
{
aInput.Inc();
}
TPtrC number = aInput.MarkedToken( mark );
if ( number.Length() <= maxLength )
{
aResult.AddParameterL( number );
result = ETrue;
}
}
if ( !result )
{
aInput.UnGetToMark( start );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleTimerL
//
// The method checks if the next part is 'no reply timer'.
// It is at most two digits. Value is expected to be present.
// Value is checked in CheckTimer method.
//
// (if value is not present, then it is handled in calling
// method)
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleTimerL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
TBool result = EFalse;
TLexMark start;
aInput.Mark( start );
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
TLexMark mark;
aInput.Mark( mark );
while ( aInput.Peek().IsDigit() )
{
aInput.Inc();
}
TPtrC timer( aInput.MarkedToken( mark ) );
if ( CheckTimer( timer ) )
{
aResult.AddParameterL( timer );
result = ETrue;
}
// Check empty parameters.
if ( !result )
{
aInput.UnGetToMark( mark );
if ( aInput.Remainder() == KPhoneSsEnd )
{
aResult.AddParameterL( KNullDesC );
result = ETrue;
}
}
}
if ( !result )
{
aInput.UnGetToMark( start );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandlePasswordL
//
// Password is four digit string.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandlePasswordL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
if ( aInput.Remainder().Length() <
KPhoneSsRemainderPasswordMinLength )
{
return EFalse;
}
TBool result = EFalse;
TLexMark start;
aInput.Mark( start );
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
TLexMark mark;
aInput.Mark( mark );
while( aInput.Peek().IsDigit() )
{
aInput.Inc();
}
TPtrC password( aInput.MarkedToken( mark ) );
if ( password.Length() == KPhoneSsPasswordLength )
{
aResult.AddParameterL( password );
result = ETrue;
}
}
if ( !result )
{
aInput.UnGetToMark( start );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::HandleGroupCodeL
//
// The method handles password group codes. However, code
// must be one to four digits.
//
// (if group code is null, then it is handled in calling
// method)
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::HandleGroupCodeL(
TLex& aInput,
CPhoneGsmParserResult& aResult )
{
if ( aInput.Remainder().Length() <= KPhoneSsRemainderMinLength )
{
return EFalse;
}
TBool result = EFalse;
TLexMark start;
aInput.Mark( start );
if ( aInput.Peek() == KPhoneSsAsterisk )
{
aInput.Inc();
TLexMark mark;
aInput.Mark( mark );
while ( aInput.Peek().IsDigit() )
{
aInput.Inc();
}
TPtrC groupCode( aInput.MarkedToken( mark ) );
if ( CheckGroupCode( groupCode ) )
{
aResult.AddParameterL( groupCode );
result = ETrue;
}
}
if ( !result )
{
aInput.UnGetToMark( start );
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::CheckBasicCode
//
// Check that basic code is appropriate
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::CheckBasicCode( const TDesC& aCode )
{
TLex lex( aCode );
TUint value;
if ( aCode.Length() <= KPhoneSsBasicCodeMaxLength )
{
if ( lex.Val( value, EDecimal ) != KErrNone )
{
return EFalse;
}
}
else
{
return EFalse;
}
TBool result = EFalse;
switch ( value )
{
// TELESERVICES
case EAllTele: // GSM: All tele and bearer services
case ETelephony: // GSM: Teleservices
case EAllDataTele: // GSM: All data teleservices
case EFax: // GSM: Facsimile services
case ESms: // GSM: Short message services
case EAllTeleExcSms: // GSM: All teleservices except SMS
case EAltTele: // PCN: Alternate line service
// BEARER SERVICES
case EAllBearer: // GSM: All bearer services
case EAllAsync: // GSM: All async services
case EAllSync: // GSM: All sync services
case ESyncData: // GSM: All data circuit sync
case EAsyncData: // GSM: All data circuit async
case EPacketData: // GSM: All dedicated packet access
case EPadAccess: // GSM: All dedicated PAD access
result = ETrue;
break;
// PLMN specific teleservices and bearer services
default:
// GSM: PLMN specific teleservices
if ( value >= EAllPlmnTele && value <= EPlmnTeleF )
{
result = ETrue;
}
// GSM: PLMN specific bearer services
else if ( value >= EAllPlmnBearer && value <= EPlmnBearerServF )
{
result = ETrue;
}
// Otherwise, result == EFalse and it's OK.
break;
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::CheckTimer
//
// Check if timer value is ok.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::CheckTimer( const TDesC& aCode )
{
TLex lex( aCode );
TUint value;
if ( aCode.Length() <= KPhoneSsTimerMaxLength )
{
if ( lex.Val( value, EDecimal ) != KErrNone )
{
return EFalse;
}
}
else
{
return EFalse;
}
TBool result = EFalse;
switch ( value )
{
case 5:
case 10:
case 15:
case 20:
case 25:
case 30:
result = ETrue;
break;
default:
break;
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::CheckGroupCode
//
// Check if group code is ok.
// -----------------------------------------------------------------------------
//
TBool CPhoneGsmSsParser::CheckGroupCode( const TDesC& aCode )
{
TLex lex( aCode );
TUint value;
TBool result = EFalse;
if ( aCode.Length() <= KPhoneSsGroupCodeMaxLength )
{
if ( lex.Val( value, EDecimal ) == KErrNone )
{
result = ( value == KPhoneSsOnlyAllowedGroupCode );
}
}
return result;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::FindString
// -----------------------------------------------------------------------------
//
TPtrC CPhoneGsmSsParser::FindString(
TLex& aInput,
const TDesC& aAllowedCharacters )
{
TLexMark mark;
aInput.Mark( mark );
// Return string containing characters that appear in
// aAllowedCharacters.
while ( aAllowedCharacters.Locate( aInput.Peek() ) !=
KErrNotFound )
{
aInput.Inc();
}
return aInput.MarkedToken( mark );
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::AddL
//
// Parse service description and add it.
//
// -----------------------------------------------------------------------------
//
void CPhoneGsmSsParser::AddL(
const TDesC& aService,
TUint aUid )
{
// There must be six positive integers in aService.
TLex input( aService );
// First number is service code.
TPtrC serviceCode( NextNumber( input ) );
// And then next five are syntax descriptions.
TServiceSyntax activation =
ConvertToServiceSyntax( NextNumberAsValue( input ) );
TServiceSyntax deactivation =
ConvertToServiceSyntax( NextNumberAsValue( input ) );
TServiceSyntax interrogation =
ConvertToServiceSyntax( NextNumberAsValue( input ) );
TServiceSyntax registration =
ConvertToServiceSyntax( NextNumberAsValue( input ) );
TServiceSyntax erasure =
ConvertToServiceSyntax( NextNumberAsValue( input ) );
// Add to array.
AddServiceL(
serviceCode,
activation,
deactivation,
interrogation,
registration,
erasure,
aUid );
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::AddServiceL
// -----------------------------------------------------------------------------
//
void CPhoneGsmSsParser::AddServiceL(
const TDesC& aServiceCode,
TServiceSyntax aActivation,
TServiceSyntax aDeactivation,
TServiceSyntax aInterrogation,
TServiceSyntax aRegistration,
TServiceSyntax aErasure,
TUint aUid )
{
TServiceInfo info;
// Fill information to info structure.
info.iCode = aServiceCode;
info.iActivation = aActivation;
info.iDeactivation = aDeactivation;
info.iInterrogation = aInterrogation;
info.iRegistration = aRegistration;
info.iErasure = aErasure;
info.iUid = aUid;
TKeyArrayFix key( _FOFF( TServiceInfo, iCode ), ECmpNormal );
// Add it to the array.
TRAPD( err, iArray->InsertIsqL( info, key ) );
if ( err != KErrNone && err != KErrNoMemory )
{
PhoneGsmParser::Panic(
PhoneGsmParser::EIncorrectServiceDescription );
}
// Just leave if no memory.
if ( err == KErrNoMemory )
{
User::Leave( err );
}
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::NextNumber
//
// Skip spaces and then get next number.
// -----------------------------------------------------------------------------
//
TPtrC CPhoneGsmSsParser::NextNumber(
TLex& aLex )
{
// Skip whites.
aLex.SkipSpace();
// Go over digits.
aLex.Mark();
while ( aLex.Peek().IsDigit() )
{
aLex.Inc();
}
// Check if we got proper number.
if ( !aLex.TokenLength() )
{
PhoneGsmParser::Panic(
PhoneGsmParser::EIncorrectServiceDescription );
}
return aLex.MarkedToken();
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::NextNumberAsValue
//
// Get number and convert it to value.
// -----------------------------------------------------------------------------
//
TUint CPhoneGsmSsParser::NextNumberAsValue(
TLex& aLex )
{
// Get number.
TPtrC number( NextNumber( aLex ) );
TLex input( number );
TUint value;
// Parse number.
if ( input.Val( value, EDecimal ) != KErrNone )
{
PhoneGsmParser::Panic(
PhoneGsmParser::EIncorrectServiceDescription );
}
return value;
}
// -----------------------------------------------------------------------------
// CPhoneGsmSsParser::ConvertToServiceSyntax
//
// Convert value to a service syntax enumeration.
// -----------------------------------------------------------------------------
//
CPhoneGsmSsParser::TServiceSyntax
CPhoneGsmSsParser::ConvertToServiceSyntax(
TUint aService )
{
TServiceSyntax service = ESyntaxNotAllowed;
switch ( aService )
{
case 0:
service = ESyntaxNotAllowed;
break;
case 1:
service = ESyntaxNoParameters;
break;
case 2:
service = ESyntaxEmptyOrBasicCode;
break;
case 3:
service = ESyntaxNumberOptBasicCodeOptTimer;
break;
case 4:
service = ESyntaxNumberOptBasicCode;
break;
case 5:
service = ESyntaxPasswordOptBasicCode;
break;
case 6:
service = ESyntaxOptGroupCodePasswordNewPasswordNewPassword;
break;
case 7:
service = ESyntaxEmptyOrBasicCode2;
break;
default:
PhoneGsmParser::Panic(
PhoneGsmParser::EIncorrectServiceDescription );
}
return service;
}
// End of File