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gerrit.opencord.org / MME2 / 991c206d57445777595f4125a83c53f14aea6294 / . / src / gtpV2Codec / ieClasses / bearerContextsInCreateBearerRequest.cpp
blob: c87ec60b0a34d38cf67791c58bb389647af3dfbf [file] [log] [blame]
/*
* Copyright 2019-present Infosys Limited  
*   
* SPDX-License-Identifier: Apache-2.0    
*/
/******************************************************************************
*
* This is an auto generated file.
* Please do not edit this file.
* All edits to be made through template source file
* <TOP-DIR/scripts/GtpV2StackCodeGen/tts/grpieinsttemplate.cpp.tt>
******************************************************************************/
#include "bearerContextsInCreateBearerRequest.h"
#include "manual/gtpV2Ie.h"
#include "gtpV2IeFactory.h"
#include "ebiIe.h"
#include "bearerTftIe.h"
#include "fTeidIe.h"
#include "fTeidIe.h"
#include "fTeidIe.h"
#include "fTeidIe.h"
#include "fTeidIe.h"
#include "fTeidIe.h"
#include "bearerQosIe.h"
#include "chargingIdIe.h"
#include "bearerFlagsIe.h"
#include "pcoIe.h"
#include "epcoIe.h"
#include "maximumPacketLossRateIe.h"
BearerContextsInCreateBearerRequest::
BearerContextsInCreateBearerRequest()
{
Uint16 mandIe;
mandIe = EbiIeType;
mandIe = (mandIe << 8) | 0; // epsBearerId
mandatoryIeSet.insert(mandIe);
mandIe = BearerTftIeType;
mandIe = (mandIe << 8) | 0; // tft
mandatoryIeSet.insert(mandIe);
mandIe = BearerQosIeType;
mandIe = (mandIe << 8) | 0; // bearerLevelQos
mandatoryIeSet.insert(mandIe);
}
BearerContextsInCreateBearerRequest::
~BearerContextsInCreateBearerRequest()
{
}
bool BearerContextsInCreateBearerRequest::
encodeBearerContextsInCreateBearerRequest(MsgBuffer &buffer,
BearerContextsInCreateBearerRequestData
const &data)
{
bool rc = false;
GtpV2IeHeader header;
Uint16 startIndex = 0;
Uint16 endIndex = 0;
Uint16 length = 0;
// Encode the Ie Header
header.ieType = EbiIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
EbiIe ebi=
dynamic_cast<
EbiIe&>(GtpV2IeFactory::getInstance().getIeObject(EbiIeType));
rc = ebi.encodeEbiIe(buffer, data.epsBearerId);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: epsBearerId\n");
return false;
}
// Encode the Ie Header
header.ieType = BearerTftIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
BearerTftIe bearerTft=
dynamic_cast<
BearerTftIe&>(GtpV2IeFactory::getInstance().getIeObject(BearerTftIeType));
rc = bearerTft.encodeBearerTftIe(buffer, data.tft);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: tft\n");
return false;
}
if (data.s1USgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s1USgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s1USgwFTeid\n");
return false;
}
}
if (data.s58UPgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 1;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s58UPgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s58UPgwFTeid\n");
return false;
}
}
if (data.s12SgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 2;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s12SgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s12SgwFTeid\n");
return false;
}
}
if (data.s4USgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 3;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s4USgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s4USgwFTeid\n");
return false;
}
}
if (data.s2bUPgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 4;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s2bUPgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s2bUPgwFTeid\n");
return false;
}
}
if (data.s2aUPgwFTeidIePresent)
{
// Encode the Ie Header
header.ieType = FTeidIeType;
header.instance = 5;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
rc = fTeid.encodeFTeidIe(buffer, data.s2aUPgwFTeid);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: s2aUPgwFTeid\n");
return false;
}
}
// Encode the Ie Header
header.ieType = BearerQosIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
BearerQosIe bearerQos=
dynamic_cast<
BearerQosIe&>(GtpV2IeFactory::getInstance().getIeObject(BearerQosIeType));
rc = bearerQos.encodeBearerQosIe(buffer, data.bearerLevelQos);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: bearerLevelQos\n");
return false;
}
if (data.chargingIdIePresent)
{
// Encode the Ie Header
header.ieType = ChargingIdIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
ChargingIdIe chargingId=
dynamic_cast<
ChargingIdIe&>(GtpV2IeFactory::getInstance().getIeObject(ChargingIdIeType));
rc = chargingId.encodeChargingIdIe(buffer, data.chargingId);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: chargingId\n");
return false;
}
}
if (data.bearerFlagsIePresent)
{
// Encode the Ie Header
header.ieType = BearerFlagsIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
BearerFlagsIe bearerFlags=
dynamic_cast<
BearerFlagsIe&>(GtpV2IeFactory::getInstance().getIeObject(BearerFlagsIeType));
rc = bearerFlags.encodeBearerFlagsIe(buffer, data.bearerFlags);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: bearerFlags\n");
return false;
}
}
if (data.protocolConfigurationOptionsIePresent)
{
// Encode the Ie Header
header.ieType = PcoIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
PcoIe pco=
dynamic_cast<
PcoIe&>(GtpV2IeFactory::getInstance().getIeObject(PcoIeType));
rc = pco.encodePcoIe(buffer, data.protocolConfigurationOptions);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: protocolConfigurationOptions\n");
return false;
}
}
if (data.extendedProtocolConfigurationOptionsIePresent)
{
// Encode the Ie Header
header.ieType = EpcoIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
EpcoIe epco=
dynamic_cast<
EpcoIe&>(GtpV2IeFactory::getInstance().getIeObject(EpcoIeType));
rc = epco.encodeEpcoIe(buffer, data.extendedProtocolConfigurationOptions);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: extendedProtocolConfigurationOptions\n");
return false;
}
}
if (data.maximumPacketLossRateIePresent)
{
// Encode the Ie Header
header.ieType = MaximumPacketLossRateIeType;
header.instance = 0;
header.length = 0; // We will encode the IE first and then update the length
GtpV2Ie::encodeGtpV2IeHeader(buffer, header);
startIndex = buffer.getCurrentIndex();
MaximumPacketLossRateIe maximumPacketLossRate=
dynamic_cast<
MaximumPacketLossRateIe&>(GtpV2IeFactory::getInstance().getIeObject(MaximumPacketLossRateIeType));
rc = maximumPacketLossRate.encodeMaximumPacketLossRateIe(buffer, data.maximumPacketLossRate);
endIndex = buffer.getCurrentIndex();
length = endIndex - startIndex;
// encode the length value now
buffer.goToIndex(startIndex - 3);
buffer.writeUint16(length, false);
buffer.goToIndex(endIndex);
if (!(rc))
{
errorStream.add((char *)"Failed to encode IE: maximumPacketLossRate\n");
return false;
}
}
return rc;
}
bool BearerContextsInCreateBearerRequest::
decodeBearerContextsInCreateBearerRequest(MsgBuffer &buffer,
BearerContextsInCreateBearerRequestData
&data, Uint16 length)
{
bool rc = false;
GtpV2IeHeader ieHeader;
set<Uint16> mandatoryIeLocalList = mandatoryIeSet;
while (buffer.lengthLeft() > IE_HEADER_SIZE)
{
GtpV2Ie::decodeGtpV2IeHeader(buffer, ieHeader);
if (ieHeader.length > buffer.lengthLeft())
{
// We do not have enough bytes left in the message for this IE
errorStream.add((char *)"IE Length exceeds beyond message boundary\n");
errorStream.add((char *)" Offending IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.add((char *)"\n Ie Length in Header: ");
errorStream.add(ieHeader.length);
errorStream.add((char *)"\n Bytes left in message: ");
errorStream.add(buffer.lengthLeft());
errorStream.endOfLine();
return false;
}
switch (ieHeader.ieType){
case EbiIeType:
{
EbiIe ieObject =
dynamic_cast<
EbiIe&>(GtpV2IeFactory::getInstance().
getIeObject(EbiIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeEbiIe(buffer, data.epsBearerId, ieHeader.length);
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: epsBearerId\n");
return false;
}
Uint16 mandIe = EbiIeType;
mandIe = (mandIe << 8) | 0;
mandatoryIeLocalList.erase(mandIe);
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case BearerTftIeType:
{
BearerTftIe ieObject =
dynamic_cast<
BearerTftIe&>(GtpV2IeFactory::getInstance().
getIeObject(BearerTftIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeBearerTftIe(buffer, data.tft, ieHeader.length);
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: tft\n");
return false;
}
Uint16 mandIe = BearerTftIeType;
mandIe = (mandIe << 8) | 0;
mandatoryIeLocalList.erase(mandIe);
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case FTeidIeType:
{
FTeidIe ieObject =
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().
getIeObject(FTeidIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeFTeidIe(buffer, data.s1USgwFTeid, ieHeader.length);
data.s1USgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s1USgwFTeid\n");
return false;
}
}
else if(ieHeader.instance == 1)
{
rc = ieObject.decodeFTeidIe(buffer, data.s58UPgwFTeid, ieHeader.length);
data.s58UPgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s58UPgwFTeid\n");
return false;
}
}
else if(ieHeader.instance == 2)
{
rc = ieObject.decodeFTeidIe(buffer, data.s12SgwFTeid, ieHeader.length);
data.s12SgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s12SgwFTeid\n");
return false;
}
}
else if(ieHeader.instance == 3)
{
rc = ieObject.decodeFTeidIe(buffer, data.s4USgwFTeid, ieHeader.length);
data.s4USgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s4USgwFTeid\n");
return false;
}
}
else if(ieHeader.instance == 4)
{
rc = ieObject.decodeFTeidIe(buffer, data.s2bUPgwFTeid, ieHeader.length);
data.s2bUPgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s2bUPgwFTeid\n");
return false;
}
}
else if(ieHeader.instance == 5)
{
rc = ieObject.decodeFTeidIe(buffer, data.s2aUPgwFTeid, ieHeader.length);
data.s2aUPgwFTeidIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: s2aUPgwFTeid\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case BearerQosIeType:
{
BearerQosIe ieObject =
dynamic_cast<
BearerQosIe&>(GtpV2IeFactory::getInstance().
getIeObject(BearerQosIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeBearerQosIe(buffer, data.bearerLevelQos, ieHeader.length);
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: bearerLevelQos\n");
return false;
}
Uint16 mandIe = BearerQosIeType;
mandIe = (mandIe << 8) | 0;
mandatoryIeLocalList.erase(mandIe);
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case ChargingIdIeType:
{
ChargingIdIe ieObject =
dynamic_cast<
ChargingIdIe&>(GtpV2IeFactory::getInstance().
getIeObject(ChargingIdIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeChargingIdIe(buffer, data.chargingId, ieHeader.length);
data.chargingIdIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: chargingId\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case BearerFlagsIeType:
{
BearerFlagsIe ieObject =
dynamic_cast<
BearerFlagsIe&>(GtpV2IeFactory::getInstance().
getIeObject(BearerFlagsIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeBearerFlagsIe(buffer, data.bearerFlags, ieHeader.length);
data.bearerFlagsIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: bearerFlags\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case PcoIeType:
{
PcoIe ieObject =
dynamic_cast<
PcoIe&>(GtpV2IeFactory::getInstance().
getIeObject(PcoIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodePcoIe(buffer, data.protocolConfigurationOptions, ieHeader.length);
data.protocolConfigurationOptionsIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: protocolConfigurationOptions\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case EpcoIeType:
{
EpcoIe ieObject =
dynamic_cast<
EpcoIe&>(GtpV2IeFactory::getInstance().
getIeObject(EpcoIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeEpcoIe(buffer, data.extendedProtocolConfigurationOptions, ieHeader.length);
data.extendedProtocolConfigurationOptionsIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: extendedProtocolConfigurationOptions\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
case MaximumPacketLossRateIeType:
{
MaximumPacketLossRateIe ieObject =
dynamic_cast<
MaximumPacketLossRateIe&>(GtpV2IeFactory::getInstance().
getIeObject(MaximumPacketLossRateIeType));
if(ieHeader.instance == 0)
{
rc = ieObject.decodeMaximumPacketLossRateIe(buffer, data.maximumPacketLossRate, ieHeader.length);
data.maximumPacketLossRateIePresent = true;
if (!(rc))
{
errorStream.add((char *)"Failed to decode IE: maximumPacketLossRate\n");
return false;
}
}
else
{
// Unknown IE instance print error TODO
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
break;
}
default:
{
// Unknown IE print error
errorStream.add((char *)"Unknown IE Type: ");
errorStream.add(ieHeader.ieType);
errorStream.endOfLine();
buffer.skipBytes(ieHeader.length);
}
}
}
if (!mandatoryIeLocalList.empty())
{
// some mandatory IEs are missing
errorStream.add((char *)"Missing Mandatory IEs:");
errorStream.endOfLine();
while (!mandatoryIeLocalList.empty())
{
Uint16 missingMandIe = *mandatoryIeLocalList.begin ();
mandatoryIeLocalList.erase (mandatoryIeLocalList.begin ());
Uint16 missingInstance = missingMandIe & 0x00FF;
Uint16 missingIeType = (missingMandIe >> 8);
errorStream.add ((char *)"Missing Ie type: ");
errorStream.add (missingIeType);
errorStream.add ((char *)" Instance: ");
errorStream.add (missingInstance);
errorStream.endOfLine();
}
rc = false;
}
return rc;
}
void BearerContextsInCreateBearerRequest::
displayBearerContextsInCreateBearerRequestData_v
(BearerContextsInCreateBearerRequestData const &data, Debug &stream)
{
stream.incrIndent();
stream.add((char *)"BearerContextsInCreateBearerRequest:");
stream.endOfLine();
stream.incrIndent();
if (data.s1USgwFTeidIePresent)
{
stream.add((char *)"s1USgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s1USgwFTeid, stream);
}
if (data.s58UPgwFTeidIePresent)
{
stream.add((char *)"s58UPgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s58UPgwFTeid, stream);
}
if (data.s12SgwFTeidIePresent)
{
stream.add((char *)"s12SgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s12SgwFTeid, stream);
}
if (data.s4USgwFTeidIePresent)
{
stream.add((char *)"s4USgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s4USgwFTeid, stream);
}
if (data.s2bUPgwFTeidIePresent)
{
stream.add((char *)"s2bUPgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s2bUPgwFTeid, stream);
}
if (data.s2aUPgwFTeidIePresent)
{
stream.add((char *)"s2aUPgwFTeid:");
stream.endOfLine();
FTeidIe fTeid=
dynamic_cast<
FTeidIe&>(GtpV2IeFactory::getInstance().getIeObject(FTeidIeType));
fTeid.displayFTeidIe_v(data.s2aUPgwFTeid, stream);
}
if (data.chargingIdIePresent)
{
stream.add((char *)"chargingId:");
stream.endOfLine();
ChargingIdIe chargingId=
dynamic_cast<
ChargingIdIe&>(GtpV2IeFactory::getInstance().getIeObject(ChargingIdIeType));
chargingId.displayChargingIdIe_v(data.chargingId, stream);
}
if (data.bearerFlagsIePresent)
{
stream.add((char *)"bearerFlags:");
stream.endOfLine();
BearerFlagsIe bearerFlags=
dynamic_cast<
BearerFlagsIe&>(GtpV2IeFactory::getInstance().getIeObject(BearerFlagsIeType));
bearerFlags.displayBearerFlagsIe_v(data.bearerFlags, stream);
}
if (data.protocolConfigurationOptionsIePresent)
{
stream.add((char *)"protocolConfigurationOptions:");
stream.endOfLine();
PcoIe pco=
dynamic_cast<
PcoIe&>(GtpV2IeFactory::getInstance().getIeObject(PcoIeType));
pco.displayPcoIe_v(data.protocolConfigurationOptions, stream);
}
if (data.extendedProtocolConfigurationOptionsIePresent)
{
stream.add((char *)"extendedProtocolConfigurationOptions:");
stream.endOfLine();
EpcoIe epco=
dynamic_cast<
EpcoIe&>(GtpV2IeFactory::getInstance().getIeObject(EpcoIeType));
epco.displayEpcoIe_v(data.extendedProtocolConfigurationOptions, stream);
}
if (data.maximumPacketLossRateIePresent)
{
stream.add((char *)"maximumPacketLossRate:");
stream.endOfLine();
MaximumPacketLossRateIe maximumPacketLossRate=
dynamic_cast<
MaximumPacketLossRateIe&>(GtpV2IeFactory::getInstance().getIeObject(MaximumPacketLossRateIeType));
maximumPacketLossRate.displayMaximumPacketLossRateIe_v(data.maximumPacketLossRate, stream);
}
stream.decrIndent();
stream.decrIndent();
}