Remove spurious "inline" which hides an exported function from elf2e32 in GCC builds - added to bug 3012
/*
* Copyright (c) 2005-2009 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:
*
*/
#include "T_BTUtil.h"
// EPOC includes
#include <bt_sock.h>
/*@{*/
// TL2CapConfig::TChannelPriority
_LIT(KEHigh, "EHigh");
_LIT(KEMedium, "EMedium");
_LIT(KELow, "ELow");
// TL2CapConfig::TChannelReliability
_LIT(KEReliableChannel, "EReliableChannel");
_LIT(KEUnreliableChannel, "EUnreliableChannel");
// TBps
_LIT(KEBps50, "EBps50");
_LIT(KEBps75, "EBps75");
_LIT(KEBps110, "EBps110");
_LIT(KEBps134, "EBps134");
_LIT(KEBps150, "EBps150");
_LIT(KEBps300, "EBps300");
_LIT(KEBps600, "EBps600");
_LIT(KEBps1200, "EBps1200");
_LIT(KEBps1800, "EBps1800");
_LIT(KEBps2000, "EBps2000");
_LIT(KEBps2400, "EBps2400");
_LIT(KEBps3600, "EBps3600");
_LIT(KEBps4800, "EBps4800");
_LIT(KEBps7200, "EBps7200");
_LIT(KEBps9600, "EBps9600");
_LIT(KEBps19200, "EBps19200");
_LIT(KEBps38400, "EBps38400");
_LIT(KEBps57600, "EBps57600");
_LIT(KEBps115200, "EBps115200");
_LIT(KEBps230400, "EBps230400");
_LIT(KEBps460800, "EBps460800");
_LIT(KEBps576000, "EBps576000");
_LIT(KEBps1152000, "EBps1152000");
_LIT(KEBps4000000, "EBps4000000");
_LIT(KEBps921600, "EBps921600");
_LIT(KEBpsAutobaud, "EBpsAutobaud");
_LIT(KEBpsSpecial, "EBpsSpecial");
// TDataBits
_LIT(KEData5, "EData5");
_LIT(KEData6, "EData6");
_LIT(KEData7, "EData7");
_LIT(KEData8, "EData8");
// TParity
_LIT(KEParityNone, "EParityNone");
_LIT(KEParityEven, "EParityEven");
_LIT(KEParityOdd, "EParityOdd");
_LIT(KEParityMark, "EParityMark");
_LIT(KEParitySpace, "EParitySpace");
// TStopBits
_LIT(KEStop1, "EStop1");
_LIT(KEStop2, "EStop2");
// TRPNFlowCtrlMask
_LIT(KEFCXOnOffInput, "EFCXOnOffInput");
_LIT(KEFCXOnOffOutput, "EFCXOnOffOutput");
_LIT(KEFCRTRInput, "EFCRTRInput");
_LIT(KEFCRTROutput, "EFCRTROutput");
_LIT(KEFCRTCInput, "EFCRTCInput");
_LIT(KEFCRTCOutput, "EFCRTCOutput");
//TBTSyncPackets
_LIT(KESyncPacketsHV1, "ESyncPacketsHV1");
_LIT(KESyncPacketsHV2, "ESyncPacketsHV2");
_LIT(KESyncPacketsHV3, "ESyncPacketsHV3");
_LIT(KESyncPacketsEV3, "ESyncPacketsEV3");
_LIT(KESyncPacketsEV4, "ESyncPacketsEV4");
_LIT(KESyncPacketsEV5, "ESyncPacketsEV5");
_LIT(KESyncAnySCOPacket, "ESyncAnySCOPacket");
_LIT(KESyncAnyESCOPacket, "ESyncAnyESCOPacket");
//TBTeSCORetransmissionTypes
_LIT(KEeSCORetransmitNone, "EeSCORetransmitNone");
_LIT(KEeSCORetransmitPower, "EeSCORetransmitPower");
_LIT(KEeSCORetransmitReliability, "EeSCORetransmitReliability");
_LIT(KEeSCORetransmitDontCare, "EeSCORetransmitDontCare");
_LIT(KSdpElementTypeNil, "ETypeNil");
_LIT(KSdpElementTypeUint, "ETypeUint");
_LIT(KSdpElementTypeInt, "ETypeInt");
_LIT(KSdpElementTypeUUID, "ETypeUUID");
_LIT(KSdpElementTypeString, "ETypeString");
_LIT(KSdpElementTypeBoolean, "ETypeBoolean");
_LIT(KSdpElementTypeDES, "ETypeDES");
_LIT(KSdpElementTypeDEA, "ETypeDEA");
_LIT(KSdpElementTypeURL, "ETypeURL");
_LIT(KSdpElementTypeEncoded, "ETypeEncoded");
_LIT(KCSdpAttrValueDES, "CSdpAttrValueDES");
_LIT(KCSdpAttrValueDEA, "CSdpAttrValueDEA");
_LIT(KCSdpAttrValueList, "CSdpAttrValueList");
_LIT(KLowPowerActiveMode, "EActiveMode");
_LIT(KLowPowerHoldMode, "EHoldMode");
_LIT(KLowPowerSniffMode, "ESniffMode");
_LIT(KLowPowerParkMode, "EParkMode");
_LIT(KLowPowerScatterMode, "EScatterMode");
_LIT(KLowPowerAnyLowPowerMode, "EAnyLowPowerMode");
_LIT(KLowPowerMode, "lowpowermode%d");
_LIT(KShutdownNormal, "ENormal");
_LIT(KShutdownStopInput, "EStopInput");
_LIT(KShutdownStopOutput, "EStopOutput");
_LIT(KShutdownImmediate, "EImmediate");
_LIT(KShutdownMethod, "shutdownmethod");
_LIT(KEPacketsDM1, "EPacketsDM1");
_LIT(KEPacketsDH1, "EPacketsDH1");
_LIT(KEPacketsDM3, "EPacketsDM3");
_LIT(KEPacketsDH3, "EPacketsDH3");
_LIT(KEPacketsDM5, "EPacketsDM5");
_LIT(KEPacketsDH5, "EPacketsDH5");
_LIT(KEPackets2_DH1, "EPackets2_DH1");
_LIT(KEPackets3_DH1, "EPackets3_DH1");
_LIT(KEPackets2_DH3, "EPackets2_DH3");
_LIT(KEPackets3_DH3, "EPackets3_DH3");
_LIT(KEPackets2_DH5, "EPackets2_DH5");
_LIT(KEPackets3_DH5, "EPackets3_DH5");
_LIT(KEPacketsHV1, "EPacketsHV1");
_LIT(KEPacketsHV2, "EPacketsHV2");
_LIT(KEPacketsHV3, "EPacketsHV3");
_LIT(KEAnyACLPacket, "EAnyACLPacket");
_LIT(KEAnySCOPacket, "EAnySCOPacket");
_LIT(KEAnyPacket, "EAnyPacket");
_LIT(KPacketTypes, "packettypes%d");
_LIT(KENotifyMaster, "ENotifyMaster");
_LIT(KENotifySlave, "ENotifySlave");
_LIT(KENotifyActiveMode, "ENotifyActiveMode");
_LIT(KENotifySniffMode, "ENotifySniffMode");
_LIT(KENotifyParkMode, "ENotifyParkMode");
_LIT(KENotifyHoldMode, "ENotifyHoldMode");
_LIT(KENotifyMaxSlots1, "ENotifyMaxSlots1");
_LIT(KENotifyMaxSlots3, "ENotifyMaxSlots3");
_LIT(KENotifyMaxSlots5, "ENotifyMaxSlots5");
_LIT(KENotifyPacketsDM1, "ENotifyPacketsDM1");
_LIT(KENotifyPacketsDH1, "ENotifyPacketsDH1");
_LIT(KENotifyPacketsDM3, "ENotifyPacketsDM3");
_LIT(KENotifyPacketsDH3, "ENotifyPacketsDH3");
_LIT(KENotifyPacketsDM5, "ENotifyPacketsDM5");
_LIT(KENotifyPacketsDH5, "ENotifyPacketsDH5");
_LIT(KENotifyPacketsHV1, "ENotifyPacketsHV1");
_LIT(KENotifyPacketsHV2, "ENotifyPacketsHV2");
_LIT(KENotifyPacketsHV3, "ENotifyPacketsHV3");
_LIT(KENotifyAuthenticationComplete, "ENotifyAuthenticationComplete");
_LIT(KENotifyEncryptionChangeOn, "ENotifyEncryptionChangeOn");
_LIT(KENotifyEncryptionChangeOff, "ENotifyEncryptionChangeOff");
_LIT(KENotifyPhysicalLinkUp, "ENotifyPhysicalLinkUp");
_LIT(KENotifyPhysicalLinkDown, "ENotifyPhysicalLinkDown");
_LIT(KENotifyPhysicalLinkError, "ENotifyPhysicalLinkError");
_LIT(KENotifySynchronousLinkUp, "ENotifySynchronousLinkUp");
_LIT(KENotifySynchronousLinkDown, "ENotifySynchronousLinkDown");
_LIT(KENotifySynchronousLinkError, "ENotifySynchronousLinkError");
_LIT(KENotifySCOLinkUp, "ENotifySCOLinkUp");
_LIT(KENotifySCOLinkDown, "ENotifySCOLinkDown");
_LIT(KENotifySCOLinkError, "ENotifySCOLinkError");
//TBTPhysicalLinkStateNotifierCombinations
_LIT(KENotifyAnyRole, "ENotifyAnyRole");
_LIT(KENotifyAnyLowPowerMode, "ENotifyAnyLowPowerMode");
_LIT(KENotifyAnyPowerMode, "ENotifyAnyPowerMode");
_LIT(KENotifyAnyMaxSlots, "ENotifyAnyMaxSlots");
_LIT(KENotifyAnyACLPacketType, "ENotifyAnyACLPacketType");
_LIT(KENotifyAnySCOPacketType, "ENotifyAnySCOPacketType");
_LIT(KENotifyAnyPacketType, "ENotifyAnyPacketType");
_LIT(KENotifyAnyPhysicalLinkState, "ENotifyAnyPhysicalLinkState");
//TShutdown
_LIT(KBaseBandMode, "basebandmode%d");
//TAvdtpServiceCategory
_LIT(KAvdtpServiceCategoryNull, "EServiceCategoryNull");
_LIT(KAvdtpServiceCategoryMediaTransport, "EServiceCategoryMediaTransport");
_LIT(KAvdtpServiceCategoryReporting, "EServiceCategoryReporting");
_LIT(KAvdtpServiceCategoryRecovery, "EServiceCategoryRecovery");
_LIT(KAvdtpServiceCategoryContentProtection, "EServiceCategoryContentProtection");
_LIT(KAvdtpServiceCategoryHeaderCompression, "EServiceCategoryHeaderCompression");
_LIT(KAvdtpServiceCategoryMultiplexing, "EServiceCategoryMultiplexing");
_LIT(KAvdtpServiceCategoryMediaCodec, "EServiceCategoryMediaCodec");
_LIT(KNumberOfAvdtpServiceCategories, "ENumberOfServiceCategories");
_LIT(KALLAvdtpServiceCategories, "EAllServiceCategories");
//TAvdtpRecoveryType
_LIT(KAvdtpRecoveryTypeEForbidden, "EForbiddenRecovery");
_LIT(KAvdtpRecoveryTypeERFC2733, "ERFC2733Recovery");
//TAvdtpSignallingErrorCode
_LIT(KAvdtpBadHeaderFormat, "EAvdtpBadHeaderFormat");
_LIT(KAvdtpBadLength, "EAvdtpBadLength");
_LIT(KEAvdtpBadACPSEID, "EAvdtpBadACPSEID");
_LIT(KAvdtpSEPInUse, "EAvdtpSEPInUse");
_LIT(KAvdtpSepNotInUse, "EAvdtpSepNotInUse");
_LIT(KAvdtpBadServCategory, "EAvdtpBadServCategory");
_LIT(KAvdtpBadPayloadFormat, "EAvdtpBadPayloadFormat");
_LIT(KAvdtpNotSupportedCommand, "EAvdtpNotSupportedCommand");
_LIT(KAvdtpInvalidCapabilities, "EAvdtpInvalidCapabilities");
_LIT(KAvdtpBadRecoveryType, "EAvdtpBadRecoveryType");
_LIT(KAvdtpBadMediaTransportFormat, "EAvdtpBadMediaTransportFormat");
_LIT(KAvdtpBadReportingFormat, "EAvdtpBadReportingFormat");
_LIT(KAvdtpBadRecoveryFormat, "EAvdtpBadRecoveryFormat");
_LIT(KAvdtpBadRohcFormat, "EAvdtpBadRohcFormat");
_LIT(KAvdtpBadCpFormat, "EAvdtpBadCpFormat");
_LIT(KAvdtpBadMultiplexingFormat, "EAvdtpBadMultiplexingFormat");
_LIT(KAvdtpUnsupportedConfiguration, "EAvdtpUnsupportedConfiguration");
_LIT(KAvdtpBadState, "EAvdtpBadState");
//TGavdpSignallingErrorCode
_LIT(KGavdpBadService, "EGavdpBadService");
_LIT(KGavdpInsufficientResource, "EGavdpInsufficientResource");
//TA2dpSignallingErrorCode
_LIT(KA2dpInvalidCodec, "EA2dpInvalidCodec");
_LIT(KA2dpNotSupportedCodec, "EA2dpNotSupportedCodec");
_LIT(KA2dpInvalidSamplingFrequency, "EA2dpInvalidSamplingFrequency");
_LIT(KA2dpNotSupportedSamplingFrequency, "EA2dpNotSupportedSamplingFrequency");
_LIT(KA2dpInvalidChannelMode, "EA2dpInvalidChannelMode");
_LIT(KA2dpNotSupportedChannelMode, "EA2dpNotSupportedChannelMode");
_LIT(KA2dpInvalidSubbands, "EA2dpInvalidSubbands");
_LIT(KA2dpNotSupportedSubbands, "EA2dpNotSupportedSubbands");
_LIT(KA2dpInvalidAllocationMethod, "EA2dpInvalidAllocationMethod");
_LIT(KA2dpNotSupportedAllocationMethod, "EA2dpNotSupportedAllocationMethod");
_LIT(KA2dpInvalidMinimumBitPoolValue, "EA2dpInvalidMinimumBitPoolValue");
_LIT(KA2dpNotSupportedMinimumBitPoolValue, "EA2dpNotSupportedMinimumBitPoolValue");
_LIT(KA2dpInvalidMaximumBitPoolValue, "EA2dpInvalidMaximumBitPoolValue");
_LIT(KA2dpNotSupportedMaximumBitPoolValue, "EA2dpNotSupportedMaximumBitPoolValue");
_LIT(KA2dpInvalidLayer, "EA2dpInvalidLayer");
_LIT(KA2dpNotSupportedLayer, "EA2dpNotSupportedLayer");
_LIT(KA2dpNotSupportedCRC, "EA2dpNotSupportedCRC");
_LIT(KA2dpNotSupportedMPF, "EA2dpNotSupportedMPF");
_LIT(KA2dpNotSupportedVBR, "EA2dpNotSupportedVBR");
_LIT(KA2dpInvalidBitRate, "EA2dpInvalidBitRate");
_LIT(KA2dpNotSupportedBitRate, "EA2dpNotSupportedBitRate");
_LIT(KA2dpInvalidObjectType, "EA2dpInvalidObjectType");
_LIT(KA2dpNotSupportedObjectType, "EA2dpNotSupportedObjectType");
_LIT(KA2dpInvalidChannels, "EA2dpInvalidChannels");
_LIT(KA2dpNotSupportedChannels, "EA2dpNotSupportedChannels");
_LIT(KA2dpInvalidVersion, "EA2dpInvalidVersion");
_LIT(KA2dpNotSupportedVersion, "EA2dpNotSupportedVersion");
_LIT(KA2dpNotSupportedSUL, "EA2dpNotSupportedSUL");
_LIT(KA2dpInvalidBlockLength, "EA2dpInvalidBlockLength");
_LIT(KA2dpInvalidCPType, "EA2dpInvalidCPType");
_LIT(KA2dpInvalidCPFormat, "EA2dpInvalidCPFormat");
//TVdpSignallingErrorCode
_LIT(KVdpInvalidCodecType, "EVdpInvalidCodecType");
_LIT(KVdpNotSupportedCodecType, "EVdpNotSupportedCodecType");
_LIT(KVdpInvalidLevel, "EVdpInvalidLevel");
_LIT(KVdpNotSupportedLevel, "EVdpNotSupportedLevel");
_LIT(KVdpInvalidCPType, "EVdpInvalidCPType");
_LIT(KVdpInvalidCPFormat, "EVdpInvalidCPFormat");
//TBluetoothMediaType
_LIT(KAvdtpMediaTypeAudio, "EAvdtpMediaTypeAudio");
_LIT(KAvdtpMediaTypeVideo, "EAvdtpMediaTypeVideo");
_LIT(KAvdtpMediaTypeMultimedia, "EAvdtpMediaTypeMultimedia");
//TAvdtpTransportSessionType
_LIT(KMedia, "EMedia");
_LIT(KReporting, "EReporting");
_LIT(KRecovery, "ERecovery");
_LIT(KSignalling, "ESignalling");
_LIT(KNumStreamTypes, "ENumStreamTypes");
/*@}*/
void CT_BTUtil::GetChannelPriority(CDataWrapper& aDataWrapper, TL2CapConfig::TChannelPriority& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEHigh)
{
aType = TL2CapConfig::EHigh;
}
else if (typeName == KEMedium)
{
aType = TL2CapConfig::EMedium;
}
else if (typeName == KELow)
{
aType = TL2CapConfig::ELow;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TL2CapConfig::TChannelPriority) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TL2CapConfig::TChannelPriority %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetChannel(CDataWrapper& aDataWrapper, TL2CapConfig::TChannelReliability& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEReliableChannel)
{
aType = TL2CapConfig::EReliableChannel;
}
else if (typeName == KEUnreliableChannel)
{
aType = TL2CapConfig::EUnreliableChannel;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TL2CapConfig::TChannelReliability) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TL2CapConfig::TChannelReliability %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetBitValue(CDataWrapper& aDataWrapper, TBps& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEBps50)
{
aType = EBps50;
}
else if (typeName == KEBps75)
{
aType = EBps75;
}
else if (typeName == KEBps110)
{
aType = EBps110;
}
else if (typeName == KEBps134)
{
aType = EBps134;
}
else if (typeName == KEBps150)
{
aType = EBps150;
}
else if (typeName == KEBps300)
{
aType = EBps300;
}
else if (typeName == KEBps600)
{
aType = EBps600;
}
else if (typeName == KEBps1200)
{
aType = EBps1200;
}
else if (typeName == KEBps1800)
{
aType = EBps1800;
}
else if (typeName == KEBps2000)
{
aType = EBps2000;
}
else if (typeName == KEBps2400)
{
aType = EBps2400;
}
else if (typeName == KEBps3600)
{
aType = EBps3600;
}
else if (typeName == KEBps4800)
{
aType = EBps4800;
}
else if (typeName == KEBps7200)
{
aType = EBps7200;
}
else if (typeName == KEBps9600)
{
aType = EBps9600;
}
else if (typeName == KEBps19200)
{
aType = EBps19200;
}
else if (typeName == KEBps38400)
{
aType = EBps38400;
}
else if (typeName == KEBps57600)
{
aType = EBps57600;
}
else if (typeName == KEBps115200)
{
aType = EBps115200;
}
else if (typeName == KEBps230400)
{
aType = EBps230400;
}
else if (typeName == KEBps460800)
{
aType = EBps460800;
}
else if (typeName == KEBps576000)
{
aType = EBps576000;
}
else if (typeName == KEBps1152000)
{
aType = EBps1152000;
}
else if (typeName == KEBps4000000)
{
aType = EBps4000000;
}
else if (typeName == KEBps921600)
{
aType = EBps921600;
}
else if (typeName == KEBpsAutobaud)
{
aType = EBpsAutobaud;
}
else if (typeName == KEBpsSpecial)
{
aType = EBpsSpecial;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TBps) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TBps %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetDataBits(CDataWrapper& aDataWrapper, TDataBits& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEData5)
{
aType = EData5;
}
else if (typeName == KEData6)
{
aType = EData6;
}
else if (typeName == KEData7)
{
aType = EData7;
}
else if (typeName == KEData8)
{
aType = EData8;
}
else
{
TInt intType;
ret = aDataWrapper.GetIntFromConfig(aSection, aField, intType);
if ( ret )
{
aType = (TDataBits) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TDataBits %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetParity(CDataWrapper& aDataWrapper, TParity& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEParityNone)
{
aType = EParityNone;
}
else if (typeName == KEParityEven)
{
aType = EParityEven;
}
else if (typeName == KEParityOdd)
{
aType = EParityOdd;
}
else if (typeName == KEParityMark)
{
aType = EParityMark;
}
else if (typeName == KEParitySpace)
{
aType = EParitySpace;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TParity) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TParity %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetStopBits(CDataWrapper& aDataWrapper, TStopBits& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEStop1)
{
aType = EStop1;
}
else if (typeName == KEStop2)
{
aType = EStop2;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TStopBits) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TStopBits %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
void CT_BTUtil::GetTRPNFlowCtrlMask(CDataWrapper& aDataWrapper, TRPNFlowCtrlMask& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC typeName;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, typeName);
if ( ret )
{
if (typeName == KEFCXOnOffInput)
{
aType = EFCXOnOffInput;
}
else if (typeName == KEFCXOnOffOutput)
{
aType = EFCXOnOffOutput;
}
else if (typeName == KEFCRTRInput)
{
aType = EFCRTRInput;
}
else if (typeName == KEFCRTROutput)
{
aType = EFCRTROutput;
}
else if (typeName == KEFCRTCInput)
{
aType = EFCRTCInput;
}
else if (typeName == KEFCRTCOutput)
{
aType = EFCRTCOutput;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, aField, intType) )
{
aType = (TRPNFlowCtrlMask) intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal TRPNFlowCtrlMask mask %S"), &aField);
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
TBool CT_BTUtil::GetPacketTypeIntValue(TPtrC packetTypeName, TInt& aValue)
{
TBool ret = ETrue;
//TBTPacketType
if ( packetTypeName==KEPacketsDM1 )
{
aValue=EPacketsDM1;
}
else if ( packetTypeName==KEPacketsDH1 )
{
aValue=EPacketsDH1;
}
else if ( packetTypeName==KEPacketsDM3 )
{
aValue=EPacketsDM3;
}
else if ( packetTypeName==KEPacketsDH3 )
{
aValue=EPacketsDH3;
}
else if ( packetTypeName==KEPacketsDM5 )
{
aValue=EPacketsDM5;
}
else if ( packetTypeName==KEPacketsDH5 )
{
aValue=EPacketsDH5;
}
else if ( packetTypeName==KEPackets2_DH1 )
{
aValue=EPackets2_DH1;
}
else if ( packetTypeName==KEPackets3_DH1 )
{
aValue=EPackets3_DH1;
}
else if ( packetTypeName==KEPackets2_DH3 )
{
aValue=EPackets2_DH3;
}
else if ( packetTypeName==KEPackets3_DH3 )
{
aValue=EPackets3_DH3;
}
else if ( packetTypeName==KEPackets2_DH5 )
{
aValue=EPackets2_DH5;
}
else if ( packetTypeName==KEPackets3_DH5 )
{
aValue=EPackets3_DH5;
}
else if ( packetTypeName==KEPacketsHV1 )
{
aValue=EPacketsHV1;
}
else if ( packetTypeName==KEPacketsHV2 )
{
aValue=EPacketsHV2;
}
else if ( packetTypeName==KEPacketsHV3 )
{
aValue=EPacketsHV3;
}
//TBTPacketTypeCombinations
else if ( packetTypeName==KEAnyACLPacket )
{
aValue=EAnyACLPacket;
}
else if ( packetTypeName==KEAnySCOPacket )
{
aValue=EAnySCOPacket;
}
else if ( packetTypeName==KEAnyPacket )
{
aValue=EAnyPacket;
}
//ESCO packet type
else if ( packetTypeName==KESyncPacketsEV3 )
{
aValue=TBTSyncPackets::ESyncPacketsEV3;
}
else if ( packetTypeName==KESyncPacketsEV4 )
{
aValue=TBTSyncPackets::ESyncPacketsEV4;
}
else if ( packetTypeName==KESyncPacketsEV5 )
{
aValue=TBTSyncPackets::ESyncPacketsEV5;
}
else if ( packetTypeName==KESyncAnyESCOPacket )
{
aValue=TBTSyncPackets::ESyncAnyESCOPacket;
}
else
{
ret=EFalse;
aValue=-1;
}
return ret;
}
TBool CT_BTUtil::ReadTBTSyncPackets(CDataWrapper& aDataWrapper, TBTSyncPackets::TSyncPackets& aSyncPacket, const TDesC& aSection, const TDesC& aField)
{
TPtrC syncPacket;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, syncPacket);
if ( ret )
{
if ( syncPacket==KESyncPacketsHV1 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsHV1;
}
else if ( syncPacket==KESyncPacketsHV2 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsHV2;
}
else if ( syncPacket==KESyncPacketsHV3 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsHV3;
}
else if ( syncPacket==KESyncPacketsEV3 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsEV3;
}
else if ( syncPacket==KESyncPacketsEV4 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsEV4;
}
else if ( syncPacket==KESyncPacketsEV5 )
{
aSyncPacket=TBTSyncPackets::ESyncPacketsEV5;
}
else if ( syncPacket==KESyncAnySCOPacket )
{
aSyncPacket=TBTSyncPackets::ESyncAnySCOPacket;
}
else if ( syncPacket==KESyncAnyESCOPacket )
{
aSyncPacket=TBTSyncPackets::ESyncAnyESCOPacket;
}
else
{
TInt intType;
ret=aDataWrapper.GetIntFromConfig(aSection, aField, intType);
if ( ret )
{
aSyncPacket=(TBTSyncPackets::TSyncPackets)intType;
}
else
{
aDataWrapper.ERR_PRINTF1(_L("Unknow input for TBTSyncPackets"));
aDataWrapper.SetBlockResult(EFail);
}
}
}
return ret;
}
TBool CT_BTUtil::ReadTBTeSCORetransmissionTypes(CDataWrapper& aDataWrapper, TBTeSCORetransmissionTypes& aRetransmissionType, const TDesC& aSection, const TDesC& aField)
{
TPtrC retransmissionType;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, retransmissionType);
if ( ret )
{
if ( retransmissionType==KEeSCORetransmitNone )
{
aRetransmissionType=EeSCORetransmitNone;
}
else if ( retransmissionType==KEeSCORetransmitPower )
{
aRetransmissionType=EeSCORetransmitPower;
}
else if ( retransmissionType==KEeSCORetransmitReliability )
{
aRetransmissionType=EeSCORetransmitReliability;
}
else if ( retransmissionType==KEeSCORetransmitDontCare )
{
aRetransmissionType=EeSCORetransmitDontCare;
}
else
{
TInt intType;
ret=aDataWrapper.GetIntFromConfig(aSection, aField, intType);
if ( ret )
{
aRetransmissionType=(TBTeSCORetransmissionTypes)intType;
}
else
{
aDataWrapper.ERR_PRINTF1(_L("Unknow input for TBTeSCORetransmissionTypes"));
aDataWrapper.SetBlockResult(EFail);
}
}
}
return ret;
}
TBool CT_BTUtil::GetLowPowerModeIntValue(TPtrC lowPowerModeName, TInt& aValue)
{
TBool ret = ETrue;
if (lowPowerModeName == KLowPowerHoldMode)
{
aValue = EHoldMode;
}
else if (lowPowerModeName == KLowPowerSniffMode)
{
aValue = ESniffMode;
}
else if (lowPowerModeName == KLowPowerParkMode)
{
aValue = EParkMode;
}
else if (lowPowerModeName == KLowPowerAnyLowPowerMode)
{
aValue = EAnyLowPowerMode;
}
else
{
ret=EFalse;
aValue=-1;
}
return ret;
}
TBool CT_BTUtil::GetPhysicalLinkStateIntValue(TPtrC physicalLinkStateName, TInt& aValue)
{
TBool ret = ETrue;
//TBTPhysicalLinkStateNotifier
if (physicalLinkStateName == KENotifyMaster)
{
aValue = ENotifyMaster;
}
else if (physicalLinkStateName == KENotifySlave)
{
aValue = ENotifySlave;
}
else if (physicalLinkStateName == KENotifyActiveMode)
{
aValue = ENotifyActiveMode;
}
else if (physicalLinkStateName == KENotifySniffMode)
{
aValue = ENotifySniffMode;
}
else if (physicalLinkStateName == KENotifyParkMode)
{
aValue = ENotifyParkMode;
}
else if (physicalLinkStateName == KENotifyHoldMode)
{
aValue = ENotifyHoldMode;
}
else if (physicalLinkStateName == KENotifyMaxSlots1)
{
aValue = ENotifyMaxSlots1;
}
else if (physicalLinkStateName == KENotifyMaxSlots3)
{
aValue = ENotifyMaxSlots3;
}
else if (physicalLinkStateName == KENotifyMaxSlots5)
{
aValue = ENotifyMaxSlots5;
}
else if (physicalLinkStateName == KENotifyPacketsDM1)
{
aValue = ENotifyPacketsDM1;
}
else if (physicalLinkStateName == KENotifyPacketsDH1)
{
aValue = ENotifyPacketsDH1;
}
else if (physicalLinkStateName == KENotifyPacketsDM3)
{
aValue = ENotifyPacketsDM3;
}
else if (physicalLinkStateName == KENotifyPacketsDH3)
{
aValue = ENotifyPacketsDH3;
}
else if (physicalLinkStateName == KENotifyPacketsDM5)
{
aValue = ENotifyPacketsDM5;
}
else if (physicalLinkStateName == KENotifyPacketsDH5)
{
aValue = ENotifyPacketsDH5;
}
else if (physicalLinkStateName == KENotifyPacketsHV1)
{
aValue = ENotifyPacketsHV1;
}
else if (physicalLinkStateName == KENotifyPacketsHV2)
{
aValue = ENotifyPacketsHV2;
}
else if (physicalLinkStateName == KENotifyPacketsHV3)
{
aValue = ENotifyPacketsHV3;
}
else if (physicalLinkStateName == KENotifyAuthenticationComplete)
{
aValue = ENotifyAuthenticationComplete;
}
else if (physicalLinkStateName == KENotifyEncryptionChangeOn)
{
aValue = ENotifyEncryptionChangeOn;
}
else if (physicalLinkStateName == KENotifyEncryptionChangeOff)
{
aValue = ENotifyEncryptionChangeOff;
}
else if (physicalLinkStateName == KENotifyPhysicalLinkUp)
{
aValue = ENotifyPhysicalLinkUp;
}
else if (physicalLinkStateName == KENotifyPhysicalLinkDown)
{
aValue = ENotifyPhysicalLinkDown;
}
else if (physicalLinkStateName == KENotifyPhysicalLinkError)
{
aValue = ENotifyPhysicalLinkError;
}
else if (physicalLinkStateName == KENotifySynchronousLinkUp)
{
aValue = ENotifySynchronousLinkUp;
}
else if (physicalLinkStateName == KENotifySynchronousLinkDown)
{
aValue = ENotifySynchronousLinkDown;
}
else if (physicalLinkStateName == KENotifySynchronousLinkError)
{
aValue = ENotifySynchronousLinkError;
}
else if (physicalLinkStateName == KENotifySCOLinkUp)
{
aValue = ENotifySCOLinkUp;
}
else if (physicalLinkStateName == KENotifySCOLinkDown)
{
aValue = ENotifySCOLinkDown;
}
else if (physicalLinkStateName == KENotifySCOLinkError)
{
aValue = ENotifySCOLinkError;
}
//TBTPhysicalLinkStateNotifierCombinations
else if (physicalLinkStateName == KENotifyAnyRole)
{
aValue = ENotifyAnyRole;
}
else if (physicalLinkStateName == KENotifyAnyLowPowerMode)
{
aValue = ENotifyAnyLowPowerMode;
}
else if (physicalLinkStateName == KENotifyAnyPowerMode)
{
aValue = ENotifyAnyPowerMode;
}
else if (physicalLinkStateName == KENotifyAnyMaxSlots)
{
aValue = ENotifyAnyMaxSlots;
}
else if (physicalLinkStateName == KENotifyAnyACLPacketType)
{
aValue = ENotifyAnyACLPacketType;
}
else if (physicalLinkStateName == KENotifyAnySCOPacketType)
{
aValue = ENotifyAnySCOPacketType;
}
else if (physicalLinkStateName == KENotifyAnyPacketType)
{
aValue = ENotifyAnyPacketType;
}
else if (physicalLinkStateName == KENotifyAnyPhysicalLinkState)
{
aValue = ENotifyAnyPhysicalLinkState;
}
else
{
ret=EFalse;
aValue=-1;
}
return ret;
}
TBool CT_BTUtil::ReadSdpElementType(CDataWrapper& aDataWrapper, TSdpElementType& aType, const TDesC& aSection, const TDesC& aField)
{
TPtrC type;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, aField, type);
if ( ret )
{
if ( type==KSdpElementTypeNil )
{
aType=ETypeNil;
}
else if ( type==KSdpElementTypeUint )
{
aType=ETypeUint;
}
else if ( type==KSdpElementTypeInt )
{
aType=ETypeInt;
}
else if ( type==KSdpElementTypeUUID )
{
aType=ETypeUUID;
}
else if ( type==KSdpElementTypeString )
{
aType=ETypeString;
}
else if ( type==KSdpElementTypeBoolean )
{
aType=ETypeBoolean;
}
else if ( type==KSdpElementTypeDES )
{
aType=ETypeDES;
}
else if ( type==KSdpElementTypeDEA )
{
aType=ETypeDEA;
}
else if ( type==KSdpElementTypeURL )
{
aType=ETypeURL;
}
else if ( type==KSdpElementTypeEncoded )
{
aType=ETypeEncoded;
}
else
{
TInt intType;
ret=aDataWrapper.GetIntFromConfig(aSection, aField, intType);
if ( ret )
{
aType=(TSdpElementType)intType;
}
else
{
aDataWrapper.ERR_PRINTF1(_L("Unknow input for TSdpElementType"));
aDataWrapper.SetBlockResult(EFail);
}
}
}
return ret;
}
MSdpElementBuilder* CT_BTUtil::ElementBuilderCastL(CDataWrapper& aDataWrapper, const TDesC& aObjectName, const TDesC& aTypeName)
{
MSdpElementBuilder* ret = NULL;
TAny* object=aDataWrapper.GetDataObjectL(aObjectName);
if( aTypeName == KCSdpAttrValueDES )
{
ret = static_cast<CSdpAttrValueDES*>(object);
}
else if( aTypeName == KCSdpAttrValueDEA )
{
ret = static_cast<CSdpAttrValueDEA*>(object);
}
else if( aTypeName == KCSdpAttrValueList )
{
ret = static_cast<CSdpAttrValueList*>(object);
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Unknow Type %S for ElementBuilderCastL call"), &aTypeName);
aDataWrapper.SetBlockResult(EFail);
}
return ret;
}
CSdpAttrValueList* CT_BTUtil::AttrValueListCastL(CDataWrapper& aDataWrapper, const TDesC& aObjectName, const TDesC& aTypeName)
{
CSdpAttrValueList* ret = NULL;
TAny* object=aDataWrapper.GetDataObjectL(aObjectName);
if( aTypeName == KCSdpAttrValueDES )
{
ret = static_cast<CSdpAttrValueDES*>(object);
}
else if( aTypeName == KCSdpAttrValueDEA )
{
ret = static_cast<CSdpAttrValueDEA*>(object);
}
else if( aTypeName == KCSdpAttrValueList )
{
ret = static_cast<CSdpAttrValueList*>(object);
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Unknow Type %S for AttrValueListCastL call"), &aTypeName);
aDataWrapper.SetBlockResult(EFail);
}
return ret;
}
TUint CT_BTUtil::ConvertUUID32toInt(const TUUID& aUUID)
{
TUint result = aUUID[3] + 256*(aUUID[2] + 256*(aUUID[1] + aUUID[0]*256));
return result;
}
void CT_BTUtil::GetLowPowerMode(CDataWrapper& aDataWrapper, const TDesC& aSection, TUint32& aModes)
{
TBuf<KMaxTestExecuteCommandLength> tempStore;
aModes=0;
TBool moreData=ETrue;
TInt index=0;
while ( moreData )
{
TPtrC modeName;
tempStore.Format(KLowPowerMode(), ++index);
moreData=aDataWrapper.GetStringFromConfig(aSection, tempStore, modeName);
if ( moreData )
{
if (modeName == KLowPowerActiveMode)
{
aModes |= EActiveMode;
}
else if (modeName == KLowPowerHoldMode)
{
aModes |= EHoldMode;
}
else if (modeName == KLowPowerSniffMode)
{
aModes |= ESniffMode;
}
else if (modeName == KLowPowerParkMode)
{
aModes |= EParkMode;
}
else if (modeName == KLowPowerScatterMode)
{
aModes |= EScatterMode;
}
else if (modeName == KLowPowerAnyLowPowerMode)
{
aModes |= EAnyLowPowerMode;
}
else
{
TInt intMode;
if ( aDataWrapper.GetIntFromConfig(aSection, tempStore, intMode) )
{
aModes |= intMode;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal mode %S"), &tempStore);
aDataWrapper.SetBlockResult(EFail);
}
}
}
else if (index==1)
{
//Special case as we would want to use default if not found at all
aModes=EAnyLowPowerMode;
}
}
}
TBool CT_BTUtil::GetShutdown(CDataWrapper& aDataWrapper, const TDesC& aSection, RSocket::TShutdown& aShutdown)
{
TPtrC shutdownMethod;
TBool ret=aDataWrapper.GetStringFromConfig(aSection, KShutdownMethod(), shutdownMethod);
if ( ret )
{
if (shutdownMethod == KShutdownNormal)
{
aShutdown = RSocket::ENormal;
}
else if (shutdownMethod == KShutdownStopInput)
{
aShutdown = RSocket::EStopInput;
}
else if (shutdownMethod == KShutdownStopOutput)
{
aShutdown = RSocket::EStopOutput;
}
else if (shutdownMethod == KShutdownImmediate)
{
aShutdown = RSocket::EImmediate;
}
else
{
TInt intMode;
if ( aDataWrapper.GetIntFromConfig(aSection, KShutdownMethod(), intMode) )
{
aShutdown = (RSocket::TShutdown)intMode;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal mode %S"), &KShutdownMethod());
aDataWrapper.SetBlockResult(EFail);
ret=EFalse;
}
}
}
return ret;
}
void CT_BTUtil::GetTBTPacketType(CDataWrapper& aDataWrapper, const TDesC& aSection, TInt& aType)
{
TBuf<KMaxTestExecuteCommandLength> tempStore;
aType=0;
TBool moreData=ETrue;
TInt index=0;
while ( moreData )
{
TPtrC typeName;
tempStore.Format(KPacketTypes(), ++index);
moreData=aDataWrapper.GetStringFromConfig(aSection, tempStore, typeName);
if ( moreData )
{
if (typeName == KEPacketsDM1)
{
aType |= EPacketsDM1;
}
else if (typeName == KEPacketsDH1)
{
aType |= EPacketsDH1;
}
else if (typeName == KEPacketsDM3)
{
aType |= EPacketsDM3;
}
else if (typeName == KEPacketsDH3)
{
aType |= EPacketsDH3;
}
else if (typeName == KEPacketsDM5)
{
aType |= EPacketsDM5;
}
else if (typeName == KEPacketsDH5)
{
aType |= EPacketsDH5;
}
else if (typeName == KEPacketsHV1)
{
aType |= EPacketsHV1;
}
else if (typeName == KEPacketsHV2)
{
aType |= EPacketsHV2;
}
else if (typeName == KEPacketsHV3)
{
aType |= EPacketsHV3;
}
else if (typeName == KEAnyACLPacket)
{
aType |= EAnyACLPacket;
}
else if (typeName == KEAnySCOPacket)
{
aType |= EAnySCOPacket;
}
else if (typeName == KEAnyPacket)
{
aType |= EAnyPacket;
}
else
{
TInt intType;
if ( aDataWrapper.GetIntFromConfig(aSection, tempStore, intType) )
{
aType |= intType;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal type %S"), &tempStore);
aDataWrapper.SetBlockResult(EFail);
}
}
}
else if (index==1)
{
//Special case as we would want to use default if not found at all
aType=EAnyPacket;
}
}
}
void CT_BTUtil::GetLinkStateNotifierBits(CDataWrapper& aDataWrapper, const TDesC& aSection, TUint32& aModes)
{
// This is from BTTypes.h
// Bitmask values for notifying/requesting notification of the state of a physical link.
//
// These values have a two fold purpose:
// 1) They can be used along with TBTPhysicalLinkStateNotifierCombinations to specify
// a set of baseband change events for which notification is desired.
// 2) They can be used to notify the state of a physical link or a subset of that state.
// For example if only mode change events are being monitored, then at each mode change event
// only the bit reperesenting the new mode will be returned, however if the whole link state
// is required, then a combination of bit values indicating that state will be returned.
//
// THESE BIT VALUES MUST ONLY BE USED WHEN REQUESTING NOTIFICATION, OR WHEN PARSING THE
// RESULTS OF A NOTIFICATION. All other baseband state activities should use one of the
// appropriate Bluetooth SIG specified enums
// TBTBasebandRole, TBTLinkMode, TBTLinkModeCombinations, TBTPacketType,
// TBTPacketTypeCombinations
//
TBuf<KMaxTestExecuteCommandLength> tempStore;
aModes=0;
TBool moreData=ETrue;
TInt index=0;
while ( moreData )
{
TPtrC modeName;
tempStore.Format(KBaseBandMode(), ++index);
moreData=aDataWrapper.GetStringFromConfig(aSection, tempStore, modeName);
if ( moreData )
{
//Master
if (modeName == KENotifyMaster)
{
aModes |= ENotifyMaster;
}
//Slave
else if (modeName == KENotifySlave)
{
aModes |= ENotifySlave;
}
//Active Mode
else if (modeName == KENotifyActiveMode)
{
aModes |= ENotifyActiveMode;
}
//Sniff mode
else if (modeName == KENotifySniffMode)
{
aModes |= ENotifySniffMode;
}
//Park mode
else if (modeName == KENotifyParkMode)
{
aModes |= ENotifyParkMode;
}
//Hold mode
else if (modeName == KENotifyHoldMode)
{
aModes |= ENotifyHoldMode;
}
//Max slots 1
else if (modeName == KENotifyMaxSlots1)
{
aModes |= ENotifyMaxSlots1;
}
//Max slots 3
else if (modeName == KENotifyMaxSlots3)
{
aModes |= ENotifyMaxSlots3;
}
//Max slots 5
else if (modeName == KENotifyMaxSlots5)
{
aModes |= ENotifyMaxSlots5;
}
//Packets DM1
else if (modeName == KENotifyPacketsDM1)
{
aModes |= ENotifyPacketsDM1;
}
//Packets DH1
else if (modeName == KENotifyPacketsDH1)
{
aModes |= ENotifyPacketsDH1;
}
//Packets DM3
else if (modeName == KENotifyPacketsDM3)
{
aModes |= ENotifyPacketsDM3;
}
//Packets DH3
else if (modeName == KENotifyPacketsDH3)
{
aModes |= ENotifyPacketsDH3;
}
//Packets DM5
else if (modeName == KENotifyPacketsDM5)
{
aModes |= ENotifyPacketsDM5;
}
//Packets DH5
else if (modeName == KENotifyPacketsDH5)
{
aModes |= ENotifyPacketsDH5;
}
//HV1
else if (modeName == KENotifyPacketsHV1)
{
aModes |= ENotifyPacketsHV1;
}
//HV2
else if (modeName == KENotifyPacketsHV2)
{
aModes |= ENotifyPacketsHV2;
}
//HV3
else if (modeName == KENotifyPacketsHV3)
{
aModes |= ENotifyPacketsHV3;
}
//Authentication Complete
else if (modeName == KENotifyAuthenticationComplete)
{
aModes |= ENotifyAuthenticationComplete;
}
//Encryption Change On
else if (modeName == KENotifyEncryptionChangeOn)
{
aModes |= ENotifyEncryptionChangeOn;
}
//Encryption Change Off
else if (modeName == KENotifyEncryptionChangeOff)
{
aModes |= ENotifyEncryptionChangeOff;
}
//Physical Link Up
else if (modeName == KENotifyPhysicalLinkUp)
{
aModes |= ENotifyPhysicalLinkUp;
}
//Physical Link Down
else if (modeName == KENotifyPhysicalLinkDown)
{
aModes |= ENotifyPhysicalLinkDown;
}
//Physical Link Error
else if (modeName == KENotifyPhysicalLinkError)
{
aModes |= ENotifyPhysicalLinkError;
}
//SCO Link Up
else if (modeName == KENotifySCOLinkUp)
{
aModes |= ENotifySCOLinkUp;
}
//SCO Link Down
else if (modeName == KENotifySCOLinkDown)
{
aModes |= ENotifySCOLinkDown;
}
//SCO Link Error
else if (modeName == KENotifySCOLinkError)
{
aModes |= ENotifySCOLinkError;
}
else
{
TInt intMode;
if ( aDataWrapper.GetIntFromConfig(aSection, tempStore, intMode) )
{
aModes |= intMode;
}
else
{
aDataWrapper.ERR_PRINTF2(_L("Illegal type %S"), &KShutdownMethod());
aDataWrapper.SetBlockResult(EFail);
}
}
}
}
}
// method splitted in blocks to save stack space
TBool CT_BTUtil::GetIntValue(TPtrC aConstantName, TInt& aValue)
{
TBool ret = ETrue;
// ************************************************************************
// bt_sock.h
// ************************************************************************
_LIT(KBTAddrFamilyName, "KBTAddrFamily");
_LIT(KBTLinkManagerName, "KBTLinkManager");
_LIT(KL2CAPName, "KL2CAP");
_LIT(KRFCOMMName, "KRFCOMM");
_LIT(KSDPName, "KSDP");
_LIT(KAVCTPName, "KAVCTP");
_LIT(KTCIL2CAPName, "KTCIL2CAP");
_LIT(KBTMajorName, "KBTMajor");
_LIT(KBTMinorName, "KBTMinor");
_LIT(KBTBuildName, "KBTBuild");
_LIT(KSolBtBlogName, "KSolBtBlog");
_LIT(KSolBtHCIName, "KSolBtHCI");
_LIT(KSolBtLMName, "KSolBtLM");
_LIT(KSolBtL2CAPName, "KSolBtL2CAP");
_LIT(KSolBtRFCOMMName, "KSolBtRFCOMM");
_LIT(KSolBtAVCTPName, "KSolBtAVCTP");
_LIT(KSolBtACLName, "KSolBtACL");
_LIT(KSolBtAVDTPSignallingName, "KSolBtAVDTPSignalling");
_LIT(KSolBtAVDTPMediaName, "KSolBtAVDTPMedia");
_LIT(KSolBtAVDTPReportingName, "KSolBtAVDTPReporting");
_LIT(KSolBtAVDTPRecoveryName, "KSolBtAVDTPRecovery");
_LIT(KSolBtAVDTPInternalName, "KSolBtAVDTPInternal");
_LIT(KSolBtLMProxyName, "KSolBtLMProxy");
_LIT(KSolBtSAPBaseName, "KSolBtSAPBase");
_LIT(KSCOListenQueSizeName, "KSCOListenQueSize");
_LIT(KL2MinMTUName, "KL2MinMTU");
_LIT(KMaxPSMName, "KMaxPSM");
_LIT(KMinUserPSMName, "KMinUserPSM");
_LIT(KMinPSMName, "KMinPSM");
_LIT(KHostResInquiryName, "KHostResInquiry");
_LIT(KHostResNameName, "KHostResName");
_LIT(KHostResIgnoreCacheName, "KHostResIgnoreCache");
_LIT(KHostResCacheName, "KHostResCache");
_LIT(KL2CAPEchoRequestIoctlName, "KL2CAPEchoRequestIoctl");
_LIT(KL2CAPIncomingMTUIoctlName, "KL2CAPIncomingMTUIoctl");
_LIT(KL2CAPOutgoingMTUIoctlName, "KL2CAPOutgoingMTUIoctl");
_LIT(KL2CAPUpdateChannelConfigIoctlName, "KL2CAPUpdateChannelConfigIoctl");
_LIT(KDefaultBasebandConnectionTimeoutName, "KDefaultBasebandConnectionTimeout");
_LIT(KLMAddSCOConnIoctlName, "KLMAddSCOConnIoctl");
_LIT(KHCIRemoveSCOConnIoctlName, "KHCIRemoveSCOConnIoctl");
_LIT(KHCIChangePacketTypeIoctlName, "KHCIChangePacketTypeIoctl");
_LIT(KHCIAuthRequestIoctlName, "KHCIAuthRequestIoctl");
_LIT(KHCIEncryptIoctlName, "KHCIAuthRequestIoctl");
_LIT(KHCIChangeLinkKeyIoctlName, "KHCIChangeLinkKeyIoctl");
_LIT(KHCIMasterLinkKeyIoctlName, "KHCIMasterLinkKeyIoctl");
_LIT(KHCIHoldModeIoctlName, "KHCIHoldModeIoctl");
_LIT(KHCISniffModeIoctlName, "KHCISniffModeIoctl");
_LIT(KHCIExitSniffModeIoctlName, "KHCIExitSniffModeIoctl");
_LIT(KHCIParkModeIoctlName, "KHCIParkModeIoctl");
_LIT(KHCIExitParkModeIoctlName, "KHCIExitParkModeIoctl");
_LIT(KHCIReadPageTimeoutIoctlName, "KHCIReadPageTimeoutIoctl");
_LIT(KHCIWritePageTimeoutIoctlName, "KHCIWritePageTimeoutIoctl");
_LIT(KHCIReadScanEnableIoctlName, "KHCIReadScanEnableIoctl");
_LIT(KHCIWriteScanEnableIoctlName, "KHCIWriteScanEnableIoctl");
_LIT(KHCIReadDeviceClassIoctlName, "KHCIReadDeviceClassIoctl");
_LIT(KHCIWriteDeviceClassIoctlName, "KHCIWriteDeviceClassIoctl");
_LIT(KHCIReadVoiceSettingIoctlName, "KHCIReadVoiceSettingIoctl");
_LIT(KHCIWriteVoiceSettingIoctlName, "KHCIWriteVoiceSettingIoctl");
_LIT(KHCIReadHoldModeActivityIoctlName, "KHCIReadHoldModeActivityIoctl");
_LIT(KHCIWriteHoldModeActivityIoctlName, "KHCIWriteHoldModeActivityIoctl");
_LIT(KHCILocalVersionIoctlName, "KHCILocalVersionIoctl");
_LIT(KHCILocalFeaturesIoctlName, "KHCILocalFeaturesIoctl");
_LIT(KHCICountryCodeIoctlName, "KHCICountryCodeIoctl");
_LIT(KHCILocalAddressIoctlName, "KHCILocalAddressIoctl");
_LIT(KHCIWriteDiscoverabilityIoctlName, "KHCIWriteDiscoverabilityIoctl");
_LIT(KHCIReadDiscoverabilityIoctlName, "KHCIReadDiscoverabilityIoctl");
_LIT(KHCIReadAuthenticationEnableIoctlName, "KHCIReadAuthenticationEnableIoctl");
_LIT(KHCIWriteAuthenticationEnableIoctlName, "KHCIWriteAuthenticationEnableIoctl");
_LIT(KL2CAPPassiveAutoBindName, "KL2CAPPassiveAutoBind");
_LIT(KRFCOMMModemStatusCmdIoctlName, "KRFCOMMModemStatusCmdIoctl");
_LIT(KRFCOMMRemoteLineStatusCmdIoctlName, "KRFCOMMRemoteLineStatusCmdIoctl");
_LIT(KRFCOMMRemotePortNegCmdIoctlName, "KRFCOMMRemotePortNegCmdIoctl");
_LIT(KRFCOMMRemotePortNegRequestIoctlName, "KRFCOMMRemotePortNegRequestIoctl");
_LIT(KRFCOMMConfigChangeIndicationIoctlName, "KRFCOMMConfigChangeIndicationIoctl");
_LIT(KRFCOMMLocalPortParameterName, "KRFCOMMLocalPortParameter");
_LIT(KRFCOMMGetAvailableServerChannelName, "KRFCOMMGetAvailableServerChannel");
_LIT(KRFCOMMMaximumSupportedMTUName, "KRFCOMMMaximumSupportedMTU");
_LIT(KRFCOMMGetDebug1Name, "KRFCOMMGetDebug1");
_LIT(KRFCOMMGetRemoteModemStatusName, "KRFCOMMGetRemoteModemStatus");
_LIT(KRFCOMMGetTransmitCreditName, "KRFCOMMGetTransmitCredit");
_LIT(KRFCOMMGetReceiveCreditName, "KRFCOMMGetReceiveCredit");
_LIT(KRFCOMMGetReUsedCountName, "KRFCOMMGetReUsedCount");
_LIT(KRFCOMMFlowTypeCBFCName, "KRFCOMMFlowTypeCBFC");
_LIT(KRFCOMMLocalModemStatusName, "KRFCOMMLocalModemStatus");
_LIT(KErrBadHandleName, "KErrBadHandle");
_LIT(KZero, "Zero");
_LIT(KOne, "One");
_LIT(ELMOutboundACLSizeName, "ELMOutboundACLSize");
_LIT(ELMInboundACLSizeName, "ELMInboundACLSize");
_LIT(KLMGetACLHandleName, "KLMGetACLHandle");
_LIT(KLMGetACLLinkCountName, "KLMGetACLLinkCount");
_LIT(KLMGetACLLinkArrayName, "KLMGetACLLinkArray");
_LIT(KLMSetBasebandConnectionPolicyName, "KLMSetBasebandConnectionPolicy");
_LIT(KLMGetBasebandHandleName, "KLMGetBasebandHandle");
_LIT(EBBSubscribePhysicalLinkName, "EBBSubscribePhysicalLink");
_LIT(EBBBeginRawName, "EBBBeginRaw");
_LIT(EBBRequestRoleMasterName, "EBBRequestRoleMaster");
_LIT(EBBRequestRoleSlaveName, "EBBRequestRoleSlave");
_LIT(EBBCancelModeRequestName, "EBBCancelModeRequest");
_LIT(EBBRequestSniffName, "EBBRequestSniff");
_LIT(EBBRequestParkName, "EBBRequestPark");
_LIT(EBBRequestPreventRoleChangeName, "EBBRequestPreventRoleChange");
_LIT(EBBRequestAllowRoleChangeName, "EBBRequestAllowRoleChange");
_LIT(EBBRequestChangeSupportedPacketTypesName, "EBBRequestChangeSupportedPacketTypes");
_LIT(EBBEnumeratePhysicalLinksName, "EBBEnumeratePhysicalLinks");
_LIT(EBBGetPhysicalLinkStateName, "EBBGetPhysicalLinkState");
_LIT(EBBGetSniffIntervalName, "EBBGetSniffInterval");
_LIT(EBBRequestLinkAuthenticationName, "EBBRequestLinkAuthentication");
_LIT(EBBRequestPreventSniffName, "EBBRequestPreventSniff");
_LIT(EBBRequestPreventHoldName, "EBBRequestPreventHold");
_LIT(EBBRequestPreventParkName, "EBBRequestPreventPark");
_LIT(EBBRequestPreventAllLowPowerModesName, "EBBRequestPreventAllLowPowerModes");
_LIT(EBBRequestAllowSniffName, "EBBRequestAllowSniff");
_LIT(EBBRequestAllowHoldName, "EBBRequestAllowHold");
_LIT(EBBRequestAllowParkName, "EBBRequestAllowPark");
_LIT(EBBRequestAllowAllLowPowerModesName, "EBBRequestAllowAllLowPowerModes");
_LIT(KBTRegisterCodServiceName, "KBTRegisterCodService");
_LIT(KBTSecurityDeviceOverrideName, "KBTSecurityDeviceOverride");
_LIT(KESockDefaultMessageSlotsName, "KESockDefaultMessageSlots");
_LIT(KUseEmbeddedUniqueIdName, "KUseEmbeddedUniqueId");
_LIT(KConnProgressDefaultName, "KConnProgressDefault");
_LIT(KMaxSockAddrSizeName, "KMaxSockAddrSize");
_LIT(KAFUnspecName, "KAFUnspec");
_LIT(KSockStreamName, "KSockStream");
_LIT(KSockDatagramName, "KSockDatagram");
_LIT(KSockSeqPacketName, "KSockSeqPacket");
_LIT(KSockRawName, "KSockRaw");
_LIT(KSOLSocketName, "KSOLSocket");
_LIT(KLevelUnspecifiedName, "KLevelUnspecified");
_LIT(KSODebugName, "KSODebug");
_LIT(KSORecvBufName, "KSORecvBuf");
_LIT(KSOSendBufName, "KSOSendBuf");
_LIT(KSONonBlockingIOName, "KSONonBlockingIO");
_LIT(KSOBlockingIOName, "KSOBlockingIO");
_LIT(KSOSelectPollName, "KSOSelectPoll");
_LIT(KSOReadBytesPendingName, "KSOReadBytesPending");
_LIT(KSOUrgentDataOffsetName, "KSOUrgentDataOffset");
_LIT(KSOSelectLastErrorName, "KSOSelectLastError");
_LIT(KSOEnableTransferName, "KSOEnableTransfer");
_LIT(KSODisableTransferName, "KSODisableTransfer");
_LIT(KSocketBufSizeUndefinedName, "KSocketBufSizeUndefined");
_LIT(KSocketDefaultBufferSizeName, "KSocketDefaultBufferSize");
_LIT(KSocketInternalOptionBitName, "KSocketInternalOptionBit");
_LIT(KIOctlSelectName, "KIOctlSelect");
_LIT(KSockSelectReadName, "KSockSelectRead");
_LIT(KSockSelectWriteName, "KSockSelectWrite");
_LIT(KSockSelectExceptName, "KSockSelectExcept");
_LIT(KSockSelectReadContinuationName, "KSockSelectReadContinuation");
_LIT(KSockWriteUrgentName, "KSockWriteUrgent");
_LIT(KSocketInternalWriteBitName, "KSocketInternalWriteBit");
_LIT(KSockWriteSystemMaskName, "KSockWriteSystemMask");
_LIT(KSockReadPeekName, "KSockReadPeek");
_LIT(KSocketInternalReadBitName, "KSocketInternalReadBit");
_LIT(KSockReadContinuationName, "KSockReadContinuation");
_LIT(KSIConnectionLessName, "KSIConnectionLess");
_LIT(KSIReliableName, "KSIReliable");
_LIT(KSIInOrderName, "KSIInOrder");
_LIT(KSIMessageBasedName, "KSIMessageBased");
_LIT(KSIDatagramName, "KSIDatagram");
_LIT(KSIStreamBasedName, "KSIStreamBased");
_LIT(KSIPseudoStreamName, "KSIPseudoStream");
_LIT(KSIUrgentDataName, "KSIUrgentData");
_LIT(KSIConnectDataName, "KSIConnectData");
_LIT(KSIDisconnectDataName, "KSIDisconnectData");
_LIT(KSIBroadcastName, "KSIBroadcast");
_LIT(KSIMultiPointName, "KSIMultiPoint");
_LIT(KSIQOSName, "KSIQOS");
_LIT(KSIWriteOnlyName, "KSIWriteOnly");
_LIT(KSIReadOnlyName, "KSIReadOnly");
_LIT(KSIGracefulCloseName, "KSIGracefulClose");
_LIT(KSICanReconnectName, "KSICanReconnect");
_LIT(KSIPeekDataName, "KSIPeekData");
_LIT(KSIRequiresOwnerInfoName, "KSIRequiresOwnerInfo");
_LIT(KNSNameResolutionName, "KNSNameResolution");
_LIT(KNSHeirarchicalNamingName, "KNSHeirarchicalNaming");
_LIT(KNSRemoteDiscoveryName, "KNSRemoteDiscovery");
_LIT(KNSServiceResolutionName, "KNSServiceResolution");
_LIT(KNSNameRegistrationName, "KNSNameRegistration");
_LIT(KNSServiceRegistrationName, "KNSServiceRegistration");
_LIT(KNSDynamicAddressingName, "KNSDynamicAddressing");
_LIT(KNSInfoDatabaseName, "KNSInfoDatabase");
_LIT(KNSRequiresConnectionStartupName, "KNSRequiresConnectionStartup");
_LIT(KSocketNoSecurityName, "KSocketNoSecurity");
_LIT(KSecureSocketsName, "KSecureSockets");
_LIT(KSocketMessageSizeIsStreamName, "KSocketMessageSizeIsStream");
_LIT(KSocketMessageSizeUndefinedName, "KSocketMessageSizeUndefined");
_LIT(KSocketMessageSizeNoLimitName, "KSocketMessageSizeNoLimit");
_LIT(KUndefinedSockTypeName, "KUndefinedSockType");
_LIT(KUndefinedProtocolName, "KUndefinedProtocol");
_LIT(KErrWouldBlockName, "KErrWouldBlock");
_LIT(KErrConnectionTerminatedName, "KErrConnectionTerminated");
_LIT(KErrCannotFindProtocolName, "KErrCannotFindProtocol");
_LIT(KCOLConnectionName, "KCOLConnection");
_LIT(KCOLProviderName, "KCOLProvider");
_LIT(KConnInternalOptionBitName, "KConnInternalOptionBit");
_LIT(KConnWriteUserDataBitName, "KConnWriteUserDataBit");
_LIT(KConnReadUserDataBitName, "KConnReadUserDataBit");
_LIT(KCoEnumerateConnectionClientsName, "KCoEnumerateConnectionClients");
_LIT(KCoGetConnectionClientInfoName, "KCoGetConnectionClientInfo");
_LIT(KCoGetConnectionSocketInfoName, "KCoGetConnectionSocketInfo");
_LIT(KConnectionTypeDefaultName, "KConnectionTypeDefault");
_LIT(KSubConnParamsInterfaceUidName, "KSubConnParamsInterfaceUid");
_LIT(KSubConnEventInterfaceUidName, "KSubConnEventInterfaceUid");
_LIT(KSubConnGenericParamsImplUidName, "KSubConnGenericParamsImplUid");
_LIT(KSubConnGenericEventsImplUidName, "KSubConnGenericEventsImplUid");
_LIT(KSubConGlobalFamilyName, "KSubConGlobalFamily");
_LIT(KSubConQoSFamilyName, "KSubConQoSFamily");
_LIT(KSubConAuthorisationFamilyName, "KSubConAuthorisationFamily");
_LIT(KNotificationEventMaxSizeName, "KNotificationEventMaxSize");
// BT Address Family
if (aConstantName==KBTAddrFamilyName)
{
aValue=KBTAddrFamily;
}
else if (aConstantName==KBTLinkManagerName)
{
aValue=KBTLinkManager;
}
else if (aConstantName==KL2CAPName)
{
aValue=KL2CAP;
}
else if (aConstantName==KRFCOMMName)
{
aValue=KRFCOMM;
}
else if (aConstantName==KSDPName)
{
aValue=KSDP;
}
else if (aConstantName==KAVCTPName)
{
aValue=KAVCTP;
}
else if (aConstantName==KTCIL2CAPName)
{
aValue=KTCIL2CAP;
}
else if (aConstantName==KBTMajorName)
{
aValue=KBTMajor;
}
else if (aConstantName==KBTMinorName)
{
aValue=KBTMinor;
}
else if (aConstantName==KBTBuildName)
{
aValue=KBTBuild;
}
else if (aConstantName==KSolBtBlogName)
{
aValue=KSolBtBlog;
}
else if (aConstantName==KSolBtHCIName)
{
aValue=KSolBtHCI;
}
else if (aConstantName==KSolBtLMName)
{
aValue=KSolBtLM;
}
else if (aConstantName==KSolBtL2CAPName)
{
aValue=KSolBtL2CAP;
}
else if (aConstantName==KSolBtRFCOMMName)
{
aValue=KSolBtRFCOMM;
}
else if (aConstantName==KSolBtAVCTPName)
{
aValue=KSolBtAVCTP;
}
else if (aConstantName==KSolBtACLName)
{
aValue=KSolBtACL;
}
else if (aConstantName==KSolBtAVDTPSignallingName)
{
aValue=KSolBtAVDTPSignalling;
}
else if (aConstantName==KSolBtAVDTPMediaName)
{
aValue=KSolBtAVDTPMedia;
}
else if (aConstantName==KSolBtAVDTPReportingName)
{
aValue=KSolBtAVDTPReporting;
}
else if (aConstantName==KSolBtAVDTPRecoveryName)
{
aValue=KSolBtAVDTPRecovery;
}
else if (aConstantName==KSolBtAVDTPInternalName)
{
aValue=KSolBtAVDTPInternal;
}
else if (aConstantName==KSolBtLMProxyName)
{
aValue=KSolBtLMProxy;
}
else if (aConstantName==KSolBtSAPBaseName)
{
aValue=KSolBtSAPBase;
}
else if (aConstantName==KSCOListenQueSizeName)
{
aValue=KSCOListenQueSize;
}
else if (aConstantName==KL2MinMTUName)
{
aValue=KL2MinMTU;
}
else if (aConstantName==KMaxPSMName)
{
aValue=KMaxPSM;
}
else if (aConstantName==KMinUserPSMName)
{
aValue=KMinUserPSM;
}
else if (aConstantName==KMinPSMName)
{
aValue=KMinPSM;
}
else if (aConstantName==KHostResInquiryName)
{
aValue=KHostResInquiry;
}
else if (aConstantName==KHostResNameName)
{
aValue=KHostResName;
}
else if (aConstantName==KHostResIgnoreCacheName)
{
aValue=KHostResIgnoreCache;
}
else if (aConstantName==KHostResCacheName)
{
aValue=KHostResCache;
}
else if (aConstantName==KL2CAPEchoRequestIoctlName)
{
aValue=KL2CAPEchoRequestIoctl;
}
else if (aConstantName==KL2CAPIncomingMTUIoctlName)
{
aValue=KL2CAPIncomingMTUIoctl;
}
else if (aConstantName==KL2CAPOutgoingMTUIoctlName)
{
aValue=KL2CAPOutgoingMTUIoctl;
}
else if (aConstantName==KL2CAPUpdateChannelConfigIoctlName)
{
aValue=KL2CAPUpdateChannelConfigIoctl;
}
else if (aConstantName==KDefaultBasebandConnectionTimeoutName)
{
aValue=KDefaultBasebandConnectionTimeout;
}
else if (aConstantName==KLMAddSCOConnIoctlName)
{
aValue=KLMAddSCOConnIoctl;
}
else if (aConstantName==KHCIRemoveSCOConnIoctlName)
{
aValue=KHCIRemoveSCOConnIoctl;
}
else if (aConstantName==KHCIChangePacketTypeIoctlName)
{
aValue=KHCIChangePacketTypeIoctl;
}
else if (aConstantName==KHCIAuthRequestIoctlName)
{
aValue=KHCIAuthRequestIoctl;
}
else if (aConstantName==KHCIEncryptIoctlName)
{
aValue=KHCIEncryptIoctl;
}
else if (aConstantName==KHCIChangeLinkKeyIoctlName)
{
aValue=KHCIChangeLinkKeyIoctl;
}
else if (aConstantName==KHCIMasterLinkKeyIoctlName)
{
aValue=KHCIMasterLinkKeyIoctl;
}
else if (aConstantName==KHCIHoldModeIoctlName)
{
aValue=KHCIHoldModeIoctl;
}
else if (aConstantName==KHCISniffModeIoctlName)
{
aValue=KHCISniffModeIoctl;
}
else if (aConstantName==KHCIExitSniffModeIoctlName)
{
aValue=KHCIExitSniffModeIoctl;
}
else if (aConstantName==KHCIParkModeIoctlName)
{
aValue=KHCIParkModeIoctl;
}
else if (aConstantName==KHCIExitParkModeIoctlName)
{
aValue=KHCIExitParkModeIoctl;
}
else if (aConstantName==KHCIReadPageTimeoutIoctlName)
{
aValue=KHCIReadPageTimeoutIoctl;
}
else if (aConstantName==KHCIWritePageTimeoutIoctlName)
{
aValue=KHCIWritePageTimeoutIoctl;
}
else if (aConstantName==KHCIReadScanEnableIoctlName)
{
aValue=KHCIReadScanEnableIoctl;
}
else if (aConstantName==KHCIWriteScanEnableIoctlName)
{
aValue=KHCIWriteScanEnableIoctl;
}
else if (aConstantName==KHCIReadDeviceClassIoctlName)
{
aValue=KHCIReadDeviceClassIoctl;
}
else if (aConstantName==KHCIWriteDeviceClassIoctlName)
{
aValue=KHCIWriteDeviceClassIoctl;
}
else if (aConstantName==KHCIReadVoiceSettingIoctlName)
{
aValue=KHCIReadVoiceSettingIoctl;
}
else if (aConstantName==KHCIWriteVoiceSettingIoctlName)
{
aValue=KHCIWriteVoiceSettingIoctl;
}
else if (aConstantName==KHCIReadHoldModeActivityIoctlName)
{
aValue=KHCIReadHoldModeActivityIoctl;
}
else if (aConstantName==KHCIWriteHoldModeActivityIoctlName)
{
aValue=KHCIWriteHoldModeActivityIoctl;
}
else if (aConstantName==KHCILocalVersionIoctlName)
{
aValue=KHCILocalVersionIoctl;
}
else if (aConstantName==KHCILocalFeaturesIoctlName)
{
aValue=KHCILocalFeaturesIoctl;
}
else if (aConstantName==KHCICountryCodeIoctlName)
{
aValue=KHCICountryCodeIoctl;
}
else if (aConstantName==KHCILocalAddressIoctlName)
{
aValue=KHCILocalAddressIoctl;
}
else if (aConstantName==KHCIWriteDiscoverabilityIoctlName)
{
aValue=KHCIWriteDiscoverabilityIoctl;
}
else if (aConstantName==KHCIReadDiscoverabilityIoctlName)
{
aValue=KHCIReadDiscoverabilityIoctl;
}
else if (aConstantName==KHCIReadAuthenticationEnableIoctlName)
{
aValue=KHCIReadAuthenticationEnableIoctl;
}
else if (aConstantName==KHCIWriteAuthenticationEnableIoctlName)
{
aValue=KHCIWriteAuthenticationEnableIoctl;
}
else if (aConstantName==KL2CAPPassiveAutoBindName)
{
aValue=KL2CAPPassiveAutoBind;
}
else if (aConstantName==KRFCOMMModemStatusCmdIoctlName)
{
aValue=KRFCOMMModemStatusCmdIoctl;
}
else if (aConstantName==KRFCOMMRemoteLineStatusCmdIoctlName)
{
aValue=KRFCOMMRemoteLineStatusCmdIoctl;
}
else if (aConstantName==KRFCOMMRemotePortNegCmdIoctlName)
{
aValue=KRFCOMMRemotePortNegCmdIoctl;
}
else if (aConstantName==KRFCOMMRemotePortNegRequestIoctlName)
{
aValue=KRFCOMMRemotePortNegRequestIoctl;
}
else if (aConstantName==KRFCOMMConfigChangeIndicationIoctlName)
{
aValue=KRFCOMMConfigChangeIndicationIoctl;
}
else if (aConstantName==KRFCOMMLocalPortParameterName)
{
aValue=KRFCOMMLocalPortParameter;
}
else if (aConstantName==KRFCOMMGetAvailableServerChannelName)
{
aValue=KRFCOMMGetAvailableServerChannel;
}
else if (aConstantName==KRFCOMMMaximumSupportedMTUName)
{
aValue=KRFCOMMMaximumSupportedMTU;
}
else if (aConstantName==KRFCOMMGetDebug1Name)
{
aValue=KRFCOMMGetDebug1;
}
else if (aConstantName==KRFCOMMGetRemoteModemStatusName)
{
aValue=KRFCOMMGetRemoteModemStatus;
}
else if (aConstantName==KRFCOMMGetTransmitCreditName)
{
aValue=KRFCOMMGetTransmitCredit;
}
else if (aConstantName==KRFCOMMGetReceiveCreditName)
{
aValue=KRFCOMMGetReceiveCredit;
}
else if (aConstantName==KRFCOMMGetReUsedCountName)
{
aValue=KRFCOMMGetReUsedCount;
}
else if (aConstantName==KRFCOMMFlowTypeCBFCName)
{
aValue=KRFCOMMFlowTypeCBFC;
}
else if (aConstantName==KRFCOMMLocalModemStatusName)
{
aValue=KRFCOMMLocalModemStatus;
}
else if (aConstantName==KErrBadHandleName)
{
aValue=KErrBadHandle;
}
else if (aConstantName==KZero)
{
aValue=0;
}
else if (aConstantName==KOne)
{
aValue=1;
}
else if (aConstantName==ELMOutboundACLSizeName)
{
aValue=ELMOutboundACLSize;
}
else if (aConstantName==ELMInboundACLSizeName)
{
aValue=ELMInboundACLSize;
}
else if (aConstantName==KLMGetACLHandleName)
{
aValue=KLMGetACLHandle;
}
else if (aConstantName==KLMGetACLLinkCountName)
{
aValue=KLMGetACLLinkCount;
}
else if (aConstantName==KLMGetACLLinkArrayName)
{
aValue=KLMGetACLLinkArray;
}
else if (aConstantName==KLMSetBasebandConnectionPolicyName)
{
aValue=KLMSetBasebandConnectionPolicy;
}
else if (aConstantName==KLMGetBasebandHandleName)
{
aValue=KLMGetBasebandHandle;
}
else if (aConstantName==EBBSubscribePhysicalLinkName)
{
aValue=EBBSubscribePhysicalLink;
}
else if (aConstantName==EBBBeginRawName)
{
aValue=EBBBeginRaw;
}
else if (aConstantName==EBBRequestRoleMasterName)
{
aValue=EBBRequestRoleMaster;
}
else if (aConstantName==EBBRequestRoleSlaveName)
{
aValue=EBBRequestRoleSlave;
}
else if (aConstantName==EBBCancelModeRequestName)
{
aValue=EBBCancelModeRequest;
}
else if (aConstantName==EBBRequestSniffName)
{
aValue=EBBRequestSniff;
}
else if (aConstantName==EBBRequestParkName)
{
aValue=EBBRequestPark;
}
else if (aConstantName==EBBRequestPreventRoleChangeName)
{
aValue=EBBRequestPreventRoleChange;
}
else if (aConstantName==EBBRequestAllowRoleChangeName)
{
aValue=EBBRequestAllowRoleChange;
}
else if (aConstantName==EBBRequestChangeSupportedPacketTypesName)
{
aValue=EBBRequestChangeSupportedPacketTypes;
}
else if (aConstantName==EBBEnumeratePhysicalLinksName)
{
aValue=EBBEnumeratePhysicalLinks;
}
else if (aConstantName==EBBGetPhysicalLinkStateName)
{
aValue=EBBGetPhysicalLinkState;
}
else if (aConstantName==EBBGetSniffIntervalName)
{
aValue=EBBGetSniffInterval;
}
else if (aConstantName==EBBRequestLinkAuthenticationName)
{
aValue=EBBRequestLinkAuthentication;
}
else if (aConstantName==EBBRequestPreventSniffName)
{
aValue=EBBRequestPreventSniff;
}
else if (aConstantName==EBBRequestPreventHoldName)
{
aValue=EBBRequestPreventHold;
}
else if (aConstantName==EBBRequestPreventParkName)
{
aValue=EBBRequestPreventPark;
}
else if (aConstantName==EBBRequestPreventAllLowPowerModesName)
{
aValue=EBBRequestPreventAllLowPowerModes;
}
else if (aConstantName==EBBRequestAllowSniffName)
{
aValue=EBBRequestAllowSniff;
}
else if (aConstantName==EBBRequestAllowHoldName)
{
aValue=EBBRequestAllowHold;
}
else if (aConstantName==EBBRequestAllowParkName)
{
aValue=EBBRequestAllowPark;
}
else if (aConstantName==EBBRequestAllowAllLowPowerModesName)
{
aValue=EBBRequestAllowAllLowPowerModes;
}
else if (aConstantName==KBTRegisterCodServiceName)
{
aValue=KBTRegisterCodService;
}
else if (aConstantName==KBTSecurityDeviceOverrideName)
{
aValue=KBTSecurityDeviceOverride;
}
else if (aConstantName==KESockDefaultMessageSlotsName)
{
aValue=KESockDefaultMessageSlots;
}
else if (aConstantName==KUseEmbeddedUniqueIdName)
{
aValue=KUseEmbeddedUniqueId;
}
else if (aConstantName==KConnProgressDefaultName)
{
aValue=KConnProgressDefault;
}
else if (aConstantName==KMaxSockAddrSizeName)
{
aValue=KMaxSockAddrSize;
}
else if (aConstantName==KAFUnspecName)
{
aValue=KAFUnspec;
}
else if (aConstantName==KSockStreamName)
{
aValue=KSockStream;
}
else if (aConstantName==KSockDatagramName)
{
aValue=KSockDatagram;
}
else if (aConstantName==KSockSeqPacketName)
{
aValue=KSockSeqPacket;
}
else if (aConstantName==KSockRawName)
{
aValue=KSockRaw;
}
else if (aConstantName==KSOLSocketName)
{
aValue=KSOLSocket;
}
else if (aConstantName==KLevelUnspecifiedName)
{
aValue=KLevelUnspecified;
}
else if (aConstantName==KSODebugName)
{
aValue=KSODebug;
}
else if (aConstantName==KSORecvBufName)
{
aValue=KSORecvBuf;
}
else if (aConstantName==KSOSendBufName)
{
aValue=KSOSendBuf;
}
else if (aConstantName==KSONonBlockingIOName)
{
aValue=KSONonBlockingIO;
}
else if (aConstantName==KSOBlockingIOName)
{
aValue=KSOBlockingIO;
}
else if (aConstantName==KSOSelectPollName)
{
aValue=KSOSelectPoll;
}
else if (aConstantName==KSOReadBytesPendingName)
{
aValue=KSOReadBytesPending;
}
else if (aConstantName==KSOUrgentDataOffsetName)
{
aValue=KSOUrgentDataOffset;
}
else if (aConstantName==KSOSelectLastErrorName)
{
aValue=KSOSelectLastError;
}
else if (aConstantName==KSOEnableTransferName)
{
aValue=KSOEnableTransfer;
}
else if (aConstantName==KSODisableTransferName)
{
aValue=KSODisableTransfer;
}
else if (aConstantName==KSocketBufSizeUndefinedName)
{
aValue=KSocketBufSizeUndefined;
}
else if (aConstantName==KSocketDefaultBufferSizeName)
{
aValue=KSocketDefaultBufferSize;
}
else if (aConstantName==KSocketInternalOptionBitName)
{
aValue=KSocketInternalOptionBit;
}
else if (aConstantName==KIOctlSelectName)
{
aValue=KIOctlSelect;
}
else if (aConstantName==KSockSelectReadName)
{
aValue=KSockSelectRead;
}
else if (aConstantName==KSockSelectWriteName)
{
aValue=KSockSelectWrite;
}
else if (aConstantName==KSockSelectExceptName)
{
aValue=KSockSelectExcept;
}
else if (aConstantName==KSockSelectReadContinuationName)
{
aValue=KSockSelectReadContinuation;
}
else if (aConstantName==KSockWriteUrgentName)
{
aValue=KSockWriteUrgent;
}
else if (aConstantName==KSocketInternalWriteBitName)
{
aValue=KSocketInternalWriteBit;
}
else if (aConstantName==KSockWriteSystemMaskName)
{
aValue=KSockWriteSystemMask;
}
else if (aConstantName==KSockReadPeekName)
{
aValue=KSockReadPeek;
}
else if (aConstantName==KSocketInternalReadBitName)
{
aValue=KSocketInternalReadBit;
}
else if (aConstantName==KSockReadContinuationName)
{
aValue=KSockReadContinuation;
}
else if (aConstantName==KSIConnectionLessName)
{
aValue=KSIConnectionLess;
}
else if (aConstantName==KSIReliableName)
{
aValue=KSIReliable;
}
else if (aConstantName==KSIInOrderName)
{
aValue=KSIInOrder;
}
else if (aConstantName==KSIMessageBasedName)
{
aValue=KSIMessageBased;
}
else if (aConstantName==KSIDatagramName)
{
aValue=KSIDatagram;
}
else if (aConstantName==KSIStreamBasedName)
{
aValue=KSIStreamBased;
}
else if (aConstantName==KSIPseudoStreamName)
{
aValue=KSIPseudoStream;
}
else if (aConstantName==KSIUrgentDataName)
{
aValue=KSIUrgentData;
}
else if (aConstantName==KSIConnectDataName)
{
aValue=KSIConnectData;
}
else if (aConstantName==KSIDisconnectDataName)
{
aValue=KSIDisconnectData;
}
else if (aConstantName==KSIBroadcastName)
{
aValue=KSIBroadcast;
}
else if (aConstantName==KSIMultiPointName)
{
aValue=KSIMultiPoint;
}
else if (aConstantName==KSIQOSName)
{
aValue=KSIQOS;
}
else if (aConstantName==KSIWriteOnlyName)
{
aValue=KSIWriteOnly;
}
else if (aConstantName==KSIReadOnlyName)
{
aValue=KSIReadOnly;
}
else if (aConstantName==KSIGracefulCloseName)
{
aValue=KSIGracefulClose;
}
else if (aConstantName==KSICanReconnectName)
{
aValue=KSICanReconnect;
}
else if (aConstantName==KSIPeekDataName)
{
aValue=KSIPeekData;
}
else if (aConstantName==KSIRequiresOwnerInfoName)
{
aValue=KSIRequiresOwnerInfo;
}
else if (aConstantName==KNSNameResolutionName)
{
aValue=KNSNameResolution;
}
else if (aConstantName==KNSHeirarchicalNamingName)
{
aValue=KNSHeirarchicalNaming;
}
else if (aConstantName==KNSRemoteDiscoveryName)
{
aValue=KNSRemoteDiscovery;
}
else if (aConstantName==KNSServiceResolutionName)
{
aValue=KNSServiceResolution;
}
else if (aConstantName==KNSNameRegistrationName)
{
aValue=KNSNameRegistration;
}
else if (aConstantName==KNSServiceRegistrationName)
{
aValue=KNSServiceRegistration;
}
else if (aConstantName==KNSDynamicAddressingName)
{
aValue=KNSDynamicAddressing;
}
else if (aConstantName==KNSInfoDatabaseName)
{
aValue=KNSInfoDatabase;
}
else if (aConstantName==KNSRequiresConnectionStartupName)
{
aValue=KNSRequiresConnectionStartup;
}
else if (aConstantName==KSocketNoSecurityName)
{
aValue=KSocketNoSecurity;
}
else if (aConstantName==KSecureSocketsName)
{
aValue=KSecureSockets;
}
else if (aConstantName==KSocketMessageSizeIsStreamName)
{
aValue=KSocketMessageSizeIsStream;
}
else if (aConstantName==KSocketMessageSizeUndefinedName)
{
aValue=KSocketMessageSizeUndefined;
}
else if (aConstantName==KSocketMessageSizeNoLimitName)
{
aValue=KSocketMessageSizeNoLimit;
}
else if (aConstantName==KUndefinedSockTypeName)
{
aValue=KUndefinedSockType;
}
else if (aConstantName==KUndefinedProtocolName)
{
aValue=KUndefinedProtocol;
}
else if (aConstantName==KErrWouldBlockName)
{
aValue=KErrWouldBlock;
}
else if (aConstantName==KErrConnectionTerminatedName)
{
aValue=KErrConnectionTerminated;
}
else if (aConstantName==KErrCannotFindProtocolName)
{
aValue=KErrCannotFindProtocol;
}
else if (aConstantName==KCOLConnectionName)
{
aValue=KCOLConnection;
}
else if (aConstantName==KCOLProviderName)
{
aValue=KCOLProvider;
}
else if (aConstantName==KConnInternalOptionBitName)
{
aValue=KConnInternalOptionBit;
}
else if (aConstantName==KConnWriteUserDataBitName)
{
aValue=KConnWriteUserDataBit;
}
else if (aConstantName==KConnReadUserDataBitName)
{
aValue=KConnReadUserDataBit;
}
else if (aConstantName==KCoEnumerateConnectionClientsName)
{
aValue=KCoEnumerateConnectionClients;
}
else if (aConstantName==KCoGetConnectionClientInfoName)
{
aValue=KCoGetConnectionClientInfo;
}
else if (aConstantName==KCoGetConnectionSocketInfoName)
{
aValue=KCoGetConnectionSocketInfo;
}
else if (aConstantName==KConnectionTypeDefaultName)
{
aValue=KConnectionTypeDefault;
}
else if (aConstantName==KSubConnParamsInterfaceUidName)
{
aValue=KSubConnParamsInterfaceUid;
}
else if (aConstantName==KSubConnEventInterfaceUidName)
{
aValue=KSubConnEventInterfaceUid;
}
else if (aConstantName==KSubConnGenericParamsImplUidName)
{
aValue=KSubConnGenericParamsImplUid;
}
else if (aConstantName==KSubConnGenericEventsImplUidName)
{
aValue=KSubConnGenericEventsImplUid;
}
else if (aConstantName==KSubConGlobalFamilyName)
{
aValue=KSubConGlobalFamily;
}
else if (aConstantName==KSubConQoSFamilyName)
{
aValue=KSubConQoSFamily;
}
else if (aConstantName==KSubConAuthorisationFamilyName)
{
aValue=KSubConAuthorisationFamily;
}
else if (aConstantName==KNotificationEventMaxSizeName)
{
aValue=KNotificationEventMaxSize;
}
else
{
ret=EFalse;
aValue=-1;
}
return ret;
}
TBool CT_BTUtil::ReadAvdtpServiceCategory(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TAvdtpServiceCategory& aCategory)
{
// Read TAvdtpServiceCategory from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KAvdtpServiceCategoryNull)
{
aCategory = EServiceCategoryNull;
}
else if(str == KAvdtpServiceCategoryMediaTransport)
{
aCategory = EServiceCategoryMediaTransport;
}
else if(str == KAvdtpServiceCategoryReporting)
{
aCategory = EServiceCategoryReporting;
}
else if(str == KAvdtpServiceCategoryRecovery)
{
aCategory = EServiceCategoryRecovery;
}
else if(str == KAvdtpServiceCategoryContentProtection)
{
aCategory = EServiceCategoryContentProtection;
}
else if(str == KAvdtpServiceCategoryHeaderCompression)
{
aCategory = EServiceCategoryHeaderCompression;
}
else if(str == KAvdtpServiceCategoryMultiplexing)
{
aCategory = EServiceCategoryMultiplexing;
}
else if(str == KAvdtpServiceCategoryMediaCodec)
{
aCategory = EServiceCategoryMediaCodec;
}
else if(str == KNumberOfAvdtpServiceCategories)
{
aCategory = ENumberOfServiceCategories;
}
else if(str == KALLAvdtpServiceCategories)
{
aCategory = EAllServiceCategories;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aCategory =(TAvdtpServiceCategory)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadAvdtpRecoveryType(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TAvdtpRecoveryType& aRecoveryType)
{
// Read TAvdtpRecoveryType from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KAvdtpRecoveryTypeEForbidden)
{
aRecoveryType = SymbianBluetoothAV::EForbiddenRecovery;
}
else if(str == KAvdtpRecoveryTypeERFC2733)
{
aRecoveryType = SymbianBluetoothAV::ERFC2733Recovery;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aRecoveryType = (SymbianBluetoothAV::TAvdtpRecoveryType)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadAvdtpSignallingErrorCode(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TAvdtpSignallingErrorCode& aErrorCode)
{
// Read TAvdtpSignallingErrorCode from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KAvdtpBadHeaderFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadHeaderFormat;
}
else if(str == KAvdtpBadLength)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadLength;
}
else if(str == KEAvdtpBadACPSEID)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadACPSEID;
}
else if(str == KAvdtpSEPInUse)
{
aErrorCode = SymbianBluetoothAV::EAvdtpSEPInUse;
}
else if(str == KAvdtpSepNotInUse)
{
aErrorCode = SymbianBluetoothAV::EAvdtpSepNotInUse;
}
else if(str == KAvdtpBadServCategory)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadServCategory;
}
else if(str == KAvdtpBadPayloadFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadPayloadFormat;
}
else if(str == KAvdtpNotSupportedCommand)
{
aErrorCode = SymbianBluetoothAV::EAvdtpNotSupportedCommand;
}
else if(str == KAvdtpInvalidCapabilities)
{
aErrorCode = SymbianBluetoothAV::EAvdtpInvalidCapabilities;
}
else if(str == KAvdtpBadRecoveryType)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadRecoveryType;
}
else if(str == KAvdtpBadMediaTransportFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadMediaTransportFormat;
}
else if(str == KAvdtpBadReportingFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadReportingFormat;
}
else if(str == KAvdtpBadRecoveryFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadRecoveryFormat;
}
else if(str == KAvdtpBadRohcFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadRohcFormat;
}
else if(str == KAvdtpBadCpFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadCpFormat;
}
else if(str == KAvdtpBadMultiplexingFormat)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadMultiplexingFormat;
}
else if(str == KAvdtpUnsupportedConfiguration)
{
aErrorCode = SymbianBluetoothAV::EAvdtpUnsupportedConfiguration;
}
else if(str == KAvdtpBadState)
{
aErrorCode = SymbianBluetoothAV::EAvdtpBadState;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aErrorCode = (SymbianBluetoothAV::TAvdtpSignallingErrorCode)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadGavdpSignallingErrorCode(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TGavdpSignallingErrorCode& aErrorCode)
{
// Read TGavdpSignallingErrorCode from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KGavdpBadService)
{
aErrorCode = SymbianBluetoothAV::EGavdpBadService;
}
else if(str == KGavdpInsufficientResource)
{
aErrorCode = SymbianBluetoothAV::EGavdpInsufficientResource;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aErrorCode = (SymbianBluetoothAV::TGavdpSignallingErrorCode)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadA2dpSignallingErrorCode(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TA2dpSignallingErrorCode& aErrorCode)
{
// Read TA2dpSignallingErrorCode from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KA2dpInvalidCodec)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidCodec;
}
else if(str == KA2dpNotSupportedCodec)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedCodec;
}
else if(str == KA2dpInvalidSamplingFrequency)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidSamplingFrequency;
}
else if(str == KA2dpNotSupportedSamplingFrequency)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedSamplingFrequency;
}
else if(str == KA2dpInvalidChannelMode)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidChannelMode;
}
else if(str == KA2dpNotSupportedChannelMode)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedChannelMode;
}
else if(str == KA2dpInvalidSubbands)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidSubbands;
}
else if(str == KA2dpNotSupportedSubbands)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedSubbands;
}
else if(str == KA2dpInvalidAllocationMethod)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidAllocationMethod;
}
else if(str == KA2dpNotSupportedAllocationMethod)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedAllocationMethod;
}
else if(str == KA2dpInvalidMinimumBitPoolValue)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidMinimumBitPoolValue;
}
else if(str == KA2dpNotSupportedMinimumBitPoolValue)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedMinimumBitPoolValue;
}
else if(str == KA2dpInvalidMaximumBitPoolValue)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidMaximumBitPoolValue;
}
else if(str == KA2dpNotSupportedMaximumBitPoolValue)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedMaximumBitPoolValue;
}
else if(str == KA2dpInvalidLayer)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidLayer;
}
else if(str == KA2dpNotSupportedLayer)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedLayer;
}
else if(str == KA2dpNotSupportedCRC)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedCRC;
}
else if(str == KA2dpNotSupportedMPF)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedMPF;
}
else if(str == KA2dpNotSupportedVBR)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedVBR;
}
else if(str == KA2dpInvalidBitRate)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidBitRate;
}
else if(str == KA2dpNotSupportedBitRate)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedBitRate;
}
else if(str == KA2dpInvalidObjectType)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidObjectType;
}
else if(str == KA2dpNotSupportedObjectType)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedObjectType;
}
else if(str == KA2dpInvalidChannels)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidChannels;
}
else if(str == KA2dpNotSupportedChannels)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedChannels;
}
else if(str == KA2dpInvalidVersion)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidVersion;
}
else if(str == KA2dpNotSupportedVersion)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedVersion;
}
else if(str == KA2dpNotSupportedSUL)
{
aErrorCode = SymbianBluetoothAV::EA2dpNotSupportedSUL;
}
else if(str == KA2dpInvalidBlockLength)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidBlockLength;
}
else if(str == KA2dpInvalidCPType)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidCPType;
}
else if(str == KA2dpInvalidCPFormat)
{
aErrorCode = SymbianBluetoothAV::EA2dpInvalidCPFormat;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aErrorCode = (SymbianBluetoothAV::TA2dpSignallingErrorCode)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadVdpSignallingErrorCode(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TVdpSignallingErrorCode& aErrorCode)
{
// Read TVdpSignallingErrorCode from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KVdpInvalidCodecType)
{
aErrorCode = SymbianBluetoothAV::EVdpInvalidCodecType;
}
else if(str == KVdpNotSupportedCodecType)
{
aErrorCode = SymbianBluetoothAV::EVdpNotSupportedCodecType;
}
else if(str == KVdpInvalidLevel)
{
aErrorCode = SymbianBluetoothAV::EVdpInvalidLevel;
}
else if(str == KVdpNotSupportedLevel)
{
aErrorCode = SymbianBluetoothAV::EVdpNotSupportedLevel;
}
else if(str == KVdpInvalidCPType)
{
aErrorCode = SymbianBluetoothAV::EVdpInvalidCPType;
}
else if(str == KVdpInvalidCPFormat)
{
aErrorCode = SymbianBluetoothAV::EVdpInvalidCPFormat;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aErrorCode = (SymbianBluetoothAV::TVdpSignallingErrorCode)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadBluetoothMediaType(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, SymbianBluetoothAV::TBluetoothMediaType& aMediaType)
{
// Read TBluetoothMediaType from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KAvdtpMediaTypeAudio)
{
aMediaType = SymbianBluetoothAV::EAvdtpMediaTypeAudio;
}
else if(str == KAvdtpMediaTypeVideo)
{
aMediaType = SymbianBluetoothAV::EAvdtpMediaTypeVideo;
}
else if(str == KAvdtpMediaTypeMultimedia)
{
aMediaType = SymbianBluetoothAV::EAvdtpMediaTypeMultimedia;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aMediaType = (SymbianBluetoothAV::TBluetoothMediaType)intVal;
}
}
}
return ret;
}
TBool CT_BTUtil::ReadAvdtpTransportSessionType(CDataWrapper& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TAvdtpTransportSessionType& aSessionType)
{
// Read TAvdtpTransportSessionType from ini file
TPtrC str;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, str);
if ( ret )
{
if(str == KMedia)
{
aSessionType = EMedia;
}
else if(str == KReporting)
{
aSessionType = EReporting;
}
else if(str == KRecovery)
{
aSessionType = ERecovery;
}
else if(str == KSignalling)
{
aSessionType = ESignalling;
}
else if(str == KNumStreamTypes)
{
aSessionType = ENumStreamTypes;
}
else
{
TInt intVal=0;
ret=aDataWrapper.GetIntFromConfig(aSectName, aKeyName, intVal);
if ( ret )
{
aSessionType = (TAvdtpTransportSessionType)intVal;
}
}
}
return ret;
}
/**
* Utility method that fetches MGavdpUser pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetGavdpUserL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, MGavdpUser*& aData)
{
// get MGavdpUser data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<MGavdpUser*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches RSocketServ pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetSocketServL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, RSocketServ*& aData)
{
// get RSocketServ data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<RSocketServ*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches TSEID pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetSEIDL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TSEID*& aData)
{
// get TSEID data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<TSEID*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches TAvdtpServiceCategories pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetAvdtpServiceCategoriesL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TAvdtpServiceCategories*& aData)
{
// get TAvdtpServiceCategories data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<TAvdtpServiceCategories*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches TAvdtpSEPInfo pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetAvdtpSEPInfoL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TAvdtpSEPInfo*& aData)
{
// get TAvdtpSEPInfo data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<TAvdtpSEPInfo*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches TAvdtpServiceCapability pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetAvdtpServiceCapabilityL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TAvdtpServiceCapability*& aData)
{
// get TAvdtpServiceCapability data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<TAvdtpServiceCapability*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}
/**
* Utility method that fetches TBTDevAddr pointer by command parameter name from INI-file.
*/
TBool CT_BTUtil::GetBTDevAddrL(CDataWrapperBase& aDataWrapper, const TDesC& aSectName, const TDesC& aKeyName, TBTDevAddr*& aData)
{
// get TBTDevAddr data object from parameters
TPtrC name;
TBool ret=aDataWrapper.GetStringFromConfig(aSectName, aKeyName, name);
if ( ret )
{
// Data object found
aData=static_cast<TBTDevAddr*>(aDataWrapper.GetDataObjectL(name));
}
return ret;
}