Sync with 5.4.2

[deliverable/titan.core.git] / regression_test / XML / XmlWorkflow / XmlTest_expectedTtcns / www_ericsson_com_is_isco_Mgw_R9B27_e.ttcn

/*******************************************************************************
* Copyright Ericsson Telecom AB
*
* XSD to TTCN-3 Translator
*
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*******************************************************************************/
//
//  File:          www_ericsson_com_is_isco_Mgw_R9B27_e.ttcn
//  Description:
//  References:
//  Rev:
//  Prodnr:
//  Updated:        
//  Contact:       http://ttcn.ericsson.se
//
////////////////////////////////////////////////////////////////////////////////
//
//      Generated from file(s):
//
//      - Mgw_R9B27.xsd
//                      /* xml version = "1.0" encoding = "UTF-8" */
//                      /* targetnamespace = "http://www.ericsson.com/is/isco/Mgw/R9B27" */
//
////////////////////////////////////////////////////////////////////////////////


module www_ericsson_com_is_isco_Mgw_R9B27_e {


import from XSD all;


import from tail_f_com_ns_confd_1_0_e all;


import from www_ericsson_com_is_isco_IsTypes_R4L06_R4AB_1_02_e all;


/* This MIM describes the classes QosMonitoring, IpAddressPrefix and 
    NetworkPathGroup. */


type XSD.UnsignedShort LevelBComp1Type_30 (0 .. 63)
with {
  variant "name as 'levelBComp1Type-30'";
};


type XSD.UnsignedShort MtuType_71 (256 .. 9180)
with {
  variant "name as 'mtuType-71'";
};


type XSD.UnsignedShort FrequencyAComp4Type_51 (1 .. 4000)
with {
  variant "name as 'frequencyAComp4Type-51'";
};


type XSD.Token EchoDelayType_163 (pattern "0|64|128")
with {
  variant "name as 'echoDelayType-163'";
};


type XSD.Token EncodingNameType_103 length(1 .. 16)
with {
  variant "name as 'encodingNameType-103'";
};


type XSD.UnsignedShort FrequencyBComp4Type_53 (1 .. 4000)
with {
  variant "name as 'frequencyBComp4Type-53'";
};


/* The highest/lowest allowed IP port for media. */
type XSD.UnsignedShort NibsIpPort (4096 .. 65535);


type XSD.UnsignedShort DownSupIntervalType_75 (1 .. 18000)
with {
  variant "name as 'downSupIntervalType-75'";
};


type XSD.UnsignedShort FrequencyAComp2Type_35 (1 .. 4000)
with {
  variant "name as 'frequencyAComp2Type-35'";
};


/* Alphanumeric string. */
type XSD.Token GwmAlphaNumericString_l35 (pattern "[a-zA-Z0-9]*") length(1 .. 35);


/* This datatype defines the images that can be loaded on the media processing 
      devices. Image type is called 'media profile' in the CPI (Customer Product 
      Information) and in the ISM (IS Management).
        The media profile supports various types of compression algorithms.
        1 - voiceStandard, supports the following codecs:
            * G.711 (PCM 64 kbit/s) for voice coding, fax, text telephone,
              TTY/Telecommunication Device for Deaf (TDD) or modem
            * G.726-32 (ITU-T ADPCM 32 kbit/s) for voice coding
            * G.729A/B (ITU-T CS-ACELP 8 kbit/s) for voice c */
/* oding
            * G.723.1/G.723.1A for voice coding 
            * AMR-NB
            * T.38 Fax Relay
            * Clear channel
            * Voice band data mode
        2 - voiceEVRC, supports the following codecs:
            * G.711 (PCM 64 kbit/s) for voice coding, fax, text telephone, 
              TTY/Telecommunication Device for Deaf (TDD) or modem
            * G.726-32 (ITU-T ADPCM 32 kbit/s) for voice coding
            * G.729A/B (ITU-T CS-ACELP 8 kbit/s) for voice coding
            * G.723.1/G.723.1A for voice coding
            * EVRC
            * T.38 Fax Relay
            * Clear channel
            * Voice band data mode
        3 - voiceIpIp, not used
        4 - voiceVideo, supports the following codecs:
            * G.711 (PCM 64 kbit/s) for voice coding, fax, text telephone, 
              TTY/Telecommunication Device for Deaf (TDD) or modem
            * G.726-32 (ITU-T ADPCM 32 kbit/s) for voice coding
            * G.729A/B (ITU-T CS-ACELP 8 kbit/s) for voice coding
            * G.723.1/G.723.1A for voice coding
            * AMR-NB
            * H.263 v1
            * H.263 v2
            * H.264
            * MPEG4
            * T.38 Fax Relay
            * Clear channel
            * Voice band data mode
        5 - voiceConference, not used
        6 - voiceLowDelay, supports the following codecs:
            * G.711 (PCM 64 kbit/s) for voice coding, fax, text telephone,
              TTY/Telecommunication Device for Deaf (TDD) or modem, optimized 
              for low delay.
            * T.38 Fax Relay
            * Clear channel
            * Voice band data mode */
type XSD.UnsignedShort IntfImageType (1 .. 6);


type XSD.UnsignedShort NetsyncTxClockSrcType_86 (1 .. 4)
with {
  variant "name as 'netsyncTxClockSrcType-86'";
};


type XSD.Token DataLinkStatusType_197 (pattern "notAvailable|established|remoteReleased|localReleased|localEstablishing")
with {
  variant "name as 'dataLinkStatusType-197'";
};


type XSD.UnsignedShort FrequencyBComp2Type_37 (1 .. 4000)
with {
  variant "name as 'frequencyBComp2Type-37'";
};


type XSD.UnsignedShort To3g324mDegVideoCallThrType_19 (0 .. 100)
with {
  variant "name as 'to3g324mDegVideoCallThrType-19'";
};


type XSD.UnsignedShort PathType_90 (1 .. 3)
with {
  variant "name as 'pathType-90'";
};


type XSD.UnsignedInt TrafficSupervisionExcessiveBandwidthThrType_80 (0 .. 2000000)
with {
  variant "name as 'trafficSupervisionExcessiveBandwidthThrType-80'";
};


type XSD.UnsignedShort MaxShutdownRetransType_70 (1 .. 16)
with {
  variant "name as 'maxShutdownRetransType-70'";
};


/* This datatype is used to configure whether an event notification will be generated
      when an interface changes its operational state. 
      and link down events.
        1 - enabled, linkUpEvent and linkDownEvent notifications will be issued
        2 - disabled, no event notifications will be issued */
type XSD.UnsignedShort IntfLinkUpDownTrap (1 .. 2);


type XSD.UnsignedShort UdpInactTimerType_152 (1 .. 10)
with {
  variant "name as 'udpInactTimerType-152'";
};


type XSD.UnsignedShort LevelAComp4Type_52 (0 .. 63)
with {
  variant "name as 'levelAComp4Type-52'";
};


type XSD.UnsignedShort DefaultLocalPrefixMaskLengthType_2 (0 .. 32)
with {
  variant "name as 'defaultLocalPrefixMaskLengthType-2'";
};


/* This counter type is used for statistics showing accumulations. This 
      counter increases until it reaches a maximum value 
      of 2^32-1, when it wraps around and restarts from zero. */
type XSD.UnsignedInt GwmCounter32 (0 .. 4294967295);


type XSD.UnsignedShort MaskLengthType_183 (1 .. 32)
with {
  variant "name as 'maskLengthType-183'";
};


type XSD.Token EchoDelayType_154 (pattern "0|64|128")
with {
  variant "name as 'echoDelayType-154'";
};


type XSD.UnsignedShort MaxNumberOfRetransmissionsType_144 (0 .. 10)
with {
  variant "name as 'maxNumberOfRetransmissionsType-144'";
};


type XSD.UnsignedShort LocalPortType_124 (1024 .. 65535)
with {
  variant "name as 'localPortType-124'";
};


type XSD.UnsignedShort LevelBComp4Type_54 (0 .. 63)
with {
  variant "name as 'levelBComp4Type-54'";
};


/* The first character must be a letter (a..z) followed by any of:
      a..z
      0..9
      / (forward slash)
      _ (underscore). */
type XSD.Token GwmAlphaNumericFsUs_beginAlpha_l64 (pattern "[a-z][a-z0-9/_]*") length(1 .. 64);


/* This datatype is used to define the amount of data transported by the physical 
      layer, measured in number of bits per second. */
type XSD.Integer IntfIfSpeed;


/* This datatype defines the framing type.
        1 - 24-frame multiframe (ESF - Extended Super Frame)
        2 - 12-frame multiframe (SF - Super Frame) */
type XSD.UnsignedShort IntfDs1LineType (1 .. 2);


/* This datatype defines the interface type configuration.
        1 - E1
        2 - T1 */
type XSD.UnsignedShort IntfInterfaceType (1 .. 2);


/* This datatype is used when defining the availability criterion. Either a single
        direction or both directions are considered when the 'Unavailable time (SDH) or 
       'Unavailable seconds' (SONET) is determined.  
          1 - unidirectional, the availability criterion is defined for a single 
              direction.
          2 - bidirectional, the availability criterion is defined for both forward and 
              backward directions. */
type XSD.UnsignedShort IntfUasMode (1 .. 2);


type XSD.UnsignedShort LevelAComp2Type_36 (0 .. 63)
with {
  variant "name as 'levelAComp2Type-36'";
};


type XSD.UnsignedShort LevelBComp2Type_38 (0 .. 63)
with {
  variant "name as 'levelBComp2Type-38'";
};


type XSD.UnsignedShort MaxInitRetransType_69 (1 .. 16)
with {
  variant "name as 'maxInitRetransType-69'";
};


/* This datatype is used when defining the mode of LP-RDI/RDI-V insertion
      activation.
        1 - off, LP-RDI/RDI-V insertion is deactivated. 
            NOTE: If HP-RDI/RDI-P insertion is deactivated, LP-RDI/RDI-V insertion 
            will have no affect. When HP-RDI/RDI-P insertion is activated to a value 
            other than off, the LP-RDI/RDI-V insertion configuration will be active.
        2 - auto with PLM, causes the LP-RDI/RDI-V to be inserted automatically when 
            any of the following events occur:
             * Loss of Signal (LOS)
             * Loss of Frame (LOF)
             * Multiplexer Section - Alarm Indication Signal (MS-AIS)
             * Administrative Unit - Alarm Indication Signal (AU-AIS)
             * Administrative Unit - Loss of Pointer (AU-LOP)
             * Lower order Path - Payload Mismatch (LP-PLM)
             * Lower order Path - Unequipped (LP-UNEQ)
             * Tributary Unit - Loss of Pointer (TU-LOP)
             * Tributary Unit - Alarm Indication Signal (TU-AIS)
             * Alarm Indication Signal - SONET Virtual Tributary (AIS-V)
             * Loss of Pointer - SONET Virtual Tributary (LOP-V)
             * Payload Mismatch - SONET Virtual Tributary (PLM-V)
             * Unequipped - SONET Virtual Tributary (UNEQ-V) */
type XSD.UnsignedShort IntfLowPathRdiInsertion (1 .. 2);


/* The modulation type.
        0 - Addition: The two frequencies will be added (no modulation)
        1,2 - Modulation: The two frequencies will be modulated
        NOTE: The two modulation values (1,2) are kept due backward compatability. */
type XSD.UnsignedShort DspcpToneModulation (0 .. 2);


type XSD.UnsignedShort FrequencyBComp5Type_61 (1 .. 4000)
with {
  variant "name as 'frequencyBComp5Type-61'";
};


type XSD.UnsignedShort ToIpDegVideoBitrateThrH263v1Type_12 (0 .. 52)
with {
  variant "name as 'toIpDegVideoBitrateThrH263v1Type-12'";
};


/* This datatype is used to identify interfaces by a text name, an option to 
      assign a descriptive name to an interface. */
type XSD.Token IntfIfAlias length(0 .. 64);


type XSD.Token H248IdType_104 (pattern "busy|dial|ringing|congestion|number-unobtainable|progress|busy-operator|second-dial|time-limit|line-lockout|special-dial|acceptance|refusal|special-recall-dial|distinctive-dial|message-wait|call-waiting|call-waiting-alert-pattern-1|call-waiting-alert-pattern-2|call-waiting-alert-pattern-3|trunk-queue|subscriber-trunk-dial|warning|onhold")
with {
  variant "name as 'h248IdType-104'";
};


type XSD.Token SrcAddressFilteringType_116 (pattern "off|address|addressAndPort")
with {
  variant "name as 'srcAddressFilteringType-116'";
};


type Restricted_confd_objectRef_209 BladesType_96 length(2)
with {
  variant "name as 'bladesType-96'";
};


type XSD.UnsignedShort SendQueueLengthType_207 (1 .. 300)
with {
  variant "name as 'sendQueueLengthType-207'";
};


type XSD.UnsignedShort PortType_87 (0 .. 15)
with {
  variant "name as 'portType-87'";
};


type XSD.UnsignedShort FrequencyAComp1Type_27 (1 .. 4000)
with {
  variant "name as 'frequencyAComp1Type-27'";
};


type XSD.UnsignedShort PortType_88 (0 .. 1)
with {
  variant "name as 'portType-88'";
};


type XSD.UnsignedShort FrequencyBComp1Type_29 (1 .. 4000)
with {
  variant "name as 'frequencyBComp1Type-29'";
};


type XSD.Token OpStateType_190 (pattern "down|up|noAssociation|inactive")
with {
  variant "name as 'opStateType-190'";
};


type XSD.UnsignedShort EstDataStatJitBufType_110 (5 .. 100)
with {
  variant "name as 'estDataStatJitBufType-110'";
};


type XSD.UnsignedShort LevelAComp5Type_60 (0 .. 63)
with {
  variant "name as 'levelAComp5Type-60'";
};


type XSD.UnsignedShort LocalPortType_141 (1024 .. 65535)
with {
  variant "name as 'localPortType-141'";
};


type XSD.Token IpEphTermNameType_111 length(1 .. 53)
with {
  variant "name as 'ipEphTermNameType-111'";
};


type XSD.UnsignedShort LevelBComp5Type_62 (0 .. 63)
with {
  variant "name as 'levelBComp5Type-62'";
};


/* Integer (-2147483648 .. 2147483647) */
type XSD.Int GwmInteger32 (-2147483648 .. 2147483647);


type XSD.UnsignedShort ToIpDegVideoBitrateThrH263v2Type_14 (0 .. 52)
with {
  variant "name as 'toIpDegVideoBitrateThrH263v2Type-14'";
};


/* This datatype is used when setting threshold values for degraded Bit Error Rate (BER). 
       The threshold value is set to 10-N, where N is an integer in the range 5 to 9. */
type XSD.UnsignedShort IntfE1DegBerThreshold (5 .. 9);


type XSD.UnsignedInt DefaultTimeoutType_105 (0 .. 120000)
with {
  variant "name as 'defaultTimeoutType-105'";
};


type XSD.UnsignedShort RtoMaxType_65 (80 .. 50000)
with {
  variant "name as 'rtoMaxType-65'";
};


type XSD.UnsignedShort VideoBufferSizeType_5 (1000 .. 10000)
with {
  variant "name as 'videoBufferSizeType-5'";
};


/* The Administrative state of the control link. */
type XSD.Token GwmLinkAdmState (pattern "unlocked|locked");


/* The administrative state of the device.
      
      locked:   The device is locked and new connections cannot be 
                established over the device but established connections are 
                kept.
      unlocked: The device is unlocked and new connections can be 
                established over the device. */
type XSD.Token GwmDevAdmState (pattern "unlocked|force_lock|locked");


type XSD.UnsignedShort MaxNumberOfRetransmissionsType_127 (0 .. 10)
with {
  variant "name as 'maxNumberOfRetransmissionsType-127'";
};


type XSD.UnsignedShort IterateComp4Type_47 (1 .. 100)
with {
  variant "name as 'iterateComp4Type-47'";
};


type XSD.UnsignedShort LevelAComp1Type_28 (0 .. 63)
with {
  variant "name as 'levelAComp1Type-28'";
};


type XSD.UnsignedShort FrequencyAComp5Type_59 (1 .. 4000)
with {
  variant "name as 'frequencyAComp5Type-59'";
};


type XSD.UnsignedShort IterateComp3Type_39 (1 .. 100)
with {
  variant "name as 'iterateComp3Type-39'";
};


/* Defines how to treat lost video data
        1 - Forward previously received correct video data (if any).
        2 - As 1, but indicate lost data to the IP client by additional increase of 
            RTP sequence number for the next transmitted packet.
        3 - As 1, but treat additional correct data as lost until next PSC is received
        4 - As 2, but treat additional correct data as lost until next PSC is received. */
type XSD.UnsignedShort DspcpLostVideoDataStrategy (1 .. 4);


/* The network VLAN identity. */
type XSD.UnsignedShort NibsVlan (2 .. 3999);


type XSD.UnsignedShort T95Type_150 (100 .. 10000)
with {
  variant "name as 't95Type-150'";
};


type XSD.UnsignedShort ForcedVideoSegmType_10 (0 .. 13)
with {
  variant "name as 'forcedVideoSegmType-10'";
};


type XSD.UnsignedShort ChannelIdType_181 (1 .. 31)
with {
  variant "name as 'channelIdType-181'";
};


type XSD.Token CodecType_172 (pattern "noOverride|g711ulaw|g711alaw|g723|g726|amr|g729a|g729ab|clearchannel")
with {
  variant "name as 'codecType-172'";
};


type XSD.UnsignedShort MGCOriginatedPendingLimitType_142 (1 .. 65535)
with {
  variant "name as 'mGCOriginatedPendingLimitType-142'";
};


type XSD.UnsignedShort RemotePortType_132 (1024 .. 65535)
with {
  variant "name as 'remotePortType-132'";
};


/* This datatype is used to define the sublink KLM number. */
type XSD.Token IntfKlmNumber;


type XSD.UnsignedShort To3g324mDegVideoBitrateThrH263v2Type_13 (0 .. 52)
with {
  variant "name as 'to3g324mDegVideoBitrateThrH263v2Type-13'";
};


type XSD.UnsignedShort DefaultRemotePrefixMaskLengthType_3 (0 .. 32)
with {
  variant "name as 'defaultRemotePrefixMaskLengthType-3'";
};


type XSD.UnsignedShort FastSupIntervalType_74 (1 .. 255)
with {
  variant "name as 'fastSupIntervalType-74'";
};


/* This counter type is used for statistics showing accumulations. This 
       counter increases until it reaches a maximum value 
       of 2^64-1, when it wraps around and restarts from zero. */
type XSD.UnsignedLong DspcpCounter64 (0 .. 18446744073709551615);


type XSD.Token InterfaceNameType_195 length(0 .. 64)
with {
  variant "name as 'interfaceNameType-195'";
};


type XSD.Token OpStateType_185 (pattern "down|active|inactive|pending")
with {
  variant "name as 'opStateType-185'";
};


type XSD.UnsignedShort To3g324mDegVideoBitrateThrMPEG4Type_15 (0 .. 52)
with {
  variant "name as 'to3g324mDegVideoBitrateThrMPEG4Type-15'";
};


/* This datatype defines the E1 framing types.
        1 - MultiFrameAuto (automatic detection of multiframe alignment)
        2 - MultiFrame (manually set to multiframe alignment)
        3 - BasicFrame (basic frame, no processing of CRC-4) */
type XSD.UnsignedShort IntfE1LineType (1 .. 3);


type XSD.UnsignedShort RtoAlphaType_66 (1 .. 4)
with {
  variant "name as 'rtoAlphaType-66'";
};


type XSD.UnsignedInt NormalMGExecutionTimeType_147 (0 .. 600000)
with {
  variant "name as 'normalMGExecutionTimeType-147'";
};


type XSD.UnsignedShort ActiveGcPortType_137 (1024 .. 65535)
with {
  variant "name as 'activeGcPortType-137'";
};


type XSD.Token SpcTypeType_178 (pattern "phy-eph|phy-phy|phy-vip")
with {
  variant "name as 'spcTypeType-178'";
};


type XSD.Token PayloadTypeType_158 (pattern "g711ulaw|g711alaw|clearchannel")
with {
  variant "name as 'payloadTypeType-158'";
};


type XSD.Token EncodingType_139 (pattern "prettytext|compacttext")
with {
  variant "name as 'encodingType-139'";
};


/* Used to enable/disable Video Fast Update (VFU) generation.
        0 - Disabled
        1 - Enabled */
type XSD.UnsignedShort DspcpVfuGeneration (0 .. 1);


type XSD.UnsignedInt NormalMGExecutionTimeType_130 (0 .. 600000)
with {
  variant "name as 'normalMGExecutionTimeType-130'";
};


type XSD.UnsignedShort ChannelIdType_171 (1 .. 31)
with {
  variant "name as 'channelIdType-171'";
};


type XSD.Token IdType_161 length(1 .. 61)
with {
  variant "name as 'idType-161'";
};


type XSD.UnsignedShort To3g324mDegVideoBitrateThrH263v1Type_11 (0 .. 52)
with {
  variant "name as 'to3g324mDegVideoBitrateThrH263v1Type-11'";
};


type XSD.UnsignedShort ModulationRatioABComp3Type_42 (1 .. 99)
with {
  variant "name as 'modulationRatioABComp3Type-42'";
};


/* This counter type is used for statistics showing accumulations. This 
      counter increases until it reaches a maximum value 
      of 2^32-1, when it wraps around and restarts from zero. */
type XSD.UnsignedInt MbqmCounter32 (0 .. 4294967295);


type XSD.Token CodecCNType_173 (pattern "on|off|noOverride")
with {
  variant "name as 'codecCNType-173'";
};


type XSD.UnsignedShort PortType_93 (0 .. 15)
with {
  variant "name as 'portType-93'";
};


type XSD.UnsignedShort EventFilterType_73 (1 .. 255)
with {
  variant "name as 'eventFilterType-73'";
};


type XSD.Token TypeType_164 (pattern "e1-stm1|t1-oc3|e1|t1")
with {
  variant "name as 'typeType-164'";
};


type XSD.UnsignedShort AddressGroupType_94 (0 .. 2)
with {
  variant "name as 'addressGroupType-94'";
};


type XSD.UnsignedShort NpgNoType_4 (1 .. 65535)
with {
  variant "name as 'npgNoType-4'";
};


type XSD.Token CodecTRType_175 (pattern "on|off|noOverride")
with {
  variant "name as 'codecTRType-175'";
};


type XSD.Token V52Type_165 (pattern "enabled|disabled|true|false")
with {
  variant "name as 'v52Type-165'";
};


/* The type of a route.
                        1 interface route
                        2 static route */
type XSD.UnsignedShort NibsRouteType (1 .. 2);


/* This datatype defines different ways of numbering SDH/Sonet sublinks. 
      The sublinks can be numbered in three main ways. In addition, each of these 
      ways is available with their numbering starting from either zero or one.
      The difference between the ways of numbering is which step (TUG-3/STS-1, 
      TUG-2/VT-Group, VC-12/VT-1.5) to run first.
        1 - LinearITU-T
        2 - LinearITU-T_zeroNum
        3 - HierarchicalTUG3/STS1
        4 - HierarchicalTUG3/STS1_zeroNum
        5 - HierarchicalTUG2/VT-Group
        6 - HierarchicalTUG2/VT-Group_zeroNum */
type XSD.UnsignedShort IntfKlmNumberingScheme (1 .. 6);


/* The mode used to generate a tone.
        1 - The voice will be replaced by the tone
        2 - Voice and tone will be mixed */
type XSD.UnsignedShort DspcpToneMode (1 .. 2);


type XSD.Token PTimeType_157 (pattern "Ptime-5|Ptime-10|Ptime-20|Ptime-30|Ptime-40")
with {
  variant "name as 'pTimeType-157'";
};


type XSD.UnsignedShort AudioVideoDefaultSkewType_7 (0 .. 300)
with {
  variant "name as 'audioVideoDefaultSkewType-7'";
};


type record of ObjectRef Restricted_confd_objectRef_208
with {
  variant "name as 'Restricted-confd_objectRef-208'";
  variant "list";
};


type XSD.UnsignedShort LipSyncFineTuningInteractiveType_8 (0 .. 300)
with {
  variant "name as 'lipSyncFineTuningInteractiveType-8'";
};


type XSD.UnsignedShort RemotePortType_149 (1024 .. 65535)
with {
  variant "name as 'remotePortType-149'";
};


type record of ObjectRef Restricted_confd_objectRef_209
with {
  variant "name as 'Restricted-confd_objectRef-209'";
  variant "list";
};


/* This datatype is used when configuring the MS-RDI/MS-AIS insertion activation.
        1 - off, will turn off insertion of RDI, or AIS.
        2 - rdiOn, will force insertion of MS-RDI/RDI-L.
        3 - aisOn, will force insertion of MS-RDI/RDI-L.
        4 - autoRdi, allows hardware to automatically insert RDI as a consequent 
            action of an incoming defect. */
type XSD.UnsignedShort IntfLinkRdiInsertion (1 .. 4);


type XSD.UnsignedShort AddressOffsetType_100 (0 .. 255)
with {
  variant "name as 'addressOffsetType-100'";
};


type XSD.UnsignedShort PulseComp3Type_40 (1 .. 60000)
with {
  variant "name as 'pulseComp3Type-40'";
};


type XSD.UnsignedShort PauseComp3Type_41 (0 .. 60000)
with {
  variant "name as 'pauseComp3Type-41'";
};


type XSD.Token TypeType_92 (pattern "normal|fast")
with {
  variant "name as 'typeType-92'";
};


/* This datatype is used when setting threshold values for excessive Bit Error Rate (BER). 
       The threshold value is set to 10-N, where N is an integer in the range 3 to 6. */
type XSD.UnsignedShort IntfE1ExcBerThreshold (3 .. 6);


/* The operational state of the IP interface. 
                        1 - enabled
                        2 - disabled */
type XSD.UnsignedShort NibsOperationalState (1 .. 2);


type XSD.UnsignedShort MGCOriginatedPendingLimitType_125 (1 .. 65535)
with {
  variant "name as 'mGCOriginatedPendingLimitType-125'";
};


type XSD.Short TrTimerType_186 (-1 .. 3600)
with {
  variant "name as 'trTimerType-186'";
};


type XSD.UnsignedShort ChannelIdType_166 (1 .. 31)
with {
  variant "name as 'channelIdType-166'";
};


type XSD.UnsignedShort ToIpDegVideoBitrateThrMPEG4Type_16 (0 .. 52)
with {
  variant "name as 'toIpDegVideoBitrateThrMPEG4Type-16'";
};


type XSD.UnsignedShort HbTimerType_187 (10 .. 300)
with {
  variant "name as 'hbTimerType-187'";
};


type XSD.UnsignedInt IdType_177 (0 .. 4294967295)
with {
  variant "name as 'idType-177'";
};


type XSD.Token RtcpNplrType_117 (pattern "enabled|disabled")
with {
  variant "name as 'rtcpNplrType-117'";
};


type XSD.Token TypeType_97 (pattern "block|deblock")
with {
  variant "name as 'typeType-97'";
};


type XSD.UnsignedShort RtoBetaType_67 (1 .. 4)
with {
  variant "name as 'rtoBetaType-67'";
};


type XSD.Token RtcpJdrType_118 (pattern "enabled|disabled")
with {
  variant "name as 'rtcpJdrType-118'";
};


/* This datatype is for setting the length of the trace identifiers, 'tiInserted'
       and 'tiExpected' on SONET path. The trace identifiers must be configured in
       accordance with this value. The maximum string length is 15 or 62 characters.
       Note: Changing this value will affect all paths on actual blade.
        2 - 15 char, ((CRC + 15) * 4) 
        3 - 62 char, (62 + CR + LF) */
type XSD.UnsignedShort IntfTraceLength (2 .. 3);


type XSD.UnsignedInt IdType_179 (0 .. 4294967295)
with {
  variant "name as 'idType-179'";
};


type XSD.Token RtcpRtdType_119 (pattern "enabled|disabled")
with {
  variant "name as 'rtcpRtdType-119'";
};


type XSD.UnsignedInt TrafficSupervisionMaliciousPacketsHysType_79 (0 .. 59999999)
with {
  variant "name as 'trafficSupervisionMaliciousPacketsHysType-79'";
};


/* This datatype is used to configure whether an alarm notification
      (LOF, AIS, or RDI) will be activated or not for the DS1 sublinks.
        1 - on, alarms will be sent.
        2 - off, alarms will not be sent. */
type XSD.UnsignedShort IntfDs1AlarmActivation (1 .. 2);


/* A display string showing the ratio in % with two decimals. */
type XSD.Token MbqmRatio length(1 .. 6);


type XSD.UnsignedShort MaxAckDelayType_200 (0 .. 2000)
with {
  variant "name as 'maxAckDelayType-200'";
};


type XSD.Token IdType_180 length(1 .. 16)
with {
  variant "name as 'idType-180'";
};


type XSD.Token InactivityMonType_140 (pattern "true|false")
with {
  variant "name as 'inactivityMonType-140'";
};


type XSD.UnsignedShort ActiveGcPortType_121 (1024 .. 65535)
with {
  variant "name as 'activeGcPortType-121'";
};


type XSD.Token IdType_182 length(1 .. 16)
with {
  variant "name as 'idType-182'";
};


/* Gauge. This type is used for weighted average statistics.
      It represents a non-negative integer, which may increase or decrease. */
type XSD.UnsignedInt GwmGauge32 (0 .. 4294967295);


/* Gauge. This type is used for weighted average statistics.
      It represents a non-negative integer, which may increase or decrease. */
type XSD.UnsignedInt MbqmGauge32 (0 .. 4294967295);


type XSD.Token EncodingType_123 (pattern "prettytext|compacttext")
with {
  variant "name as 'encodingType-123'";
};


/* This datatype shows the current loopback status of an interface.
        1 - No Loopback
        2 - PayloadLoopback (remote)
        3 - Line Loopback 
        4 - Local Loopback
        5 - Line Loopback (remote) */
type XSD.UnsignedShort IntfLoopbackStatus (1 .. 5);


type XSD.Token SubnetSegmentType_184 (pattern "GW_H248_sns1|GW_H248_sns2|GW_H248_sns3|GW_H248_sns4")
with {
  variant "name as 'subnetSegmentType-184'";
};


type XSD.UnsignedShort TrafficSupervisionExcessiveTrafficLogType_84 (1 .. 2)
with {
  variant "name as 'trafficSupervisionExcessiveTrafficLogType-84'";
};


/* This datatype is used when setting threshold values for excessive and degraded 
       Bit Error Rate (BER). The threshold value is set to 10-N (N = power of 10), 
       where N is an integer in the range 3 to 9. */
type XSD.UnsignedShort IntfBerThreshold (3 .. 9);


type XSD.UnsignedInt TransactionRetentionTimerType_135 (0 .. 600000)
with {
  variant "name as 'transactionRetentionTimerType-135'";
};


type XSD.Token RtcpOnType_115 (pattern "true|false")
with {
  variant "name as 'rtcpOnType-115'";
};


/* This datatype is used when setting the administrative state of an interface.
        1 - unlocked
        2 - locked */
type XSD.UnsignedShort IntfLockLine (1 .. 2);


type XSD.Token StateType_176 (pattern "active|idle")
with {
  variant "name as 'stateType-176'";
};


type XSD.UnsignedShort PulseComp4Type_48 (1 .. 60000)
with {
  variant "name as 'pulseComp4Type-48'";
};


type XSD.UnsignedShort PayloadTypeNumberType_159 (96 .. 127)
with {
  variant "name as 'payloadTypeNumberType-159'";
};


type XSD.UnsignedShort PauseComp4Type_49 (0 .. 60000)
with {
  variant "name as 'pauseComp4Type-49'";
};


type XSD.UnsignedShort NsrpInitialDelayType_21 (0 .. 400)
with {
  variant "name as 'nsrpInitialDelayType-21'";
};


type XSD.UnsignedShort PulseComp2Type_32 (1 .. 60000)
with {
  variant "name as 'pulseComp2Type-32'";
};


type XSD.UnsignedShort RtoInitialType_63 (80 .. 49000)
with {
  variant "name as 'rtoInitialType-63'";
};


type XSD.UnsignedShort PauseComp2Type_33 (0 .. 60000)
with {
  variant "name as 'pauseComp2Type-33'";
};


/* This datatype shows the current line status of an interface.
        1 - No alarm present
        2 - Far end LOF
        3 - Near end sending LOF Indication
        4 - Far end sending AIS
        5 - Near end LOF
        6 - Near end Loss Of Signal
        7 - Near end is looped
        8 - Carrier Equipment Out of Service */
type XSD.UnsignedShort IntfLineStatus (1 .. 8);


/* This datatype is used for setting the line length.
         1 - 0.6 dB, cable length 0-40 m/0-133 feet.
         2 - 1.2 dB, cable length 40-81 m/133-266 feet.
         3 - 1.8 dB, cable length 81-122 m/266-399 feet.
         4 - 2.4 dB, cable le */
/* ngth 122-162 m/399-533 feet.
         5 - 3.0 dB, cable length 162-200 m/533-655 feet. */
type XSD.UnsignedShort IntfT1CableLoss (1 .. 5);


/* This datatype is used to present the time when an interface entered its current 
      operational state. The value of this attribute is zero if the interface entered 
      its current operational state before the local network management subsystem was
      re-initialized. */
type XSD.Token IntfIfLastChanged;


/* Operational state. */
type XSD.Token GwmOpState (pattern "enabled|disabled|pending");


type XSD.UnsignedShort AddrCollSupIntervalType_76 (1 .. 255)
with {
  variant "name as 'addrCollSupIntervalType-76'";
};


/* This type describes the encoding scheme. */
type XSD.Token GwmEncoding (pattern "a-law|u-law");


type XSD.UnsignedShort ModulationRatioABComp5Type_58 (1 .. 99)
with {
  variant "name as 'modulationRatioABComp5Type-58'";
};


type XSD.UnsignedShort SubportType_89 (0 .. 63)
with {
  variant "name as 'subportType-89'";
};


type XSD.Token StartTimeType_170 length(0 .. 20)
with {
  variant "name as 'startTimeType-170'";
};


type XSD.Token NameType_120 length(1 .. 35)
with {
  variant "name as 'nameType-120'";
};


type XSD.UnsignedInt TransactionRetentionTimerType_151 (0 .. 600000)
with {
  variant "name as 'transactionRetentionTimerType-151'";
};


type XSD.Token DomainNameType_122 length(1 .. 32)
with {
  variant "name as 'domainNameType-122'";
};


/* Used to enable/disable continous AMR transmission.
        0 - Disabled
        1 - Enabled */
type XSD.UnsignedShort DspcpContinousAmrTrans (0 .. 1);


type enumerated DummyEmptyType
{
        x
}
with {
  variant "text 'x' as ''";
};


type XSD.UnsignedShort ModulationRatioABComp1Type_26 (1 .. 99)
with {
  variant "name as 'modulationRatioABComp1Type-26'";
};


/* Integer (0 .. 65535) */
type XSD.UnsignedShort GwmUnsigned16 (0 .. 65535);


type XSD.Token DetailedTermInfoPackageType_107 (pattern "enabled|disabled")
with {
  variant "name as 'detailedTermInfoPackageType-107'";
};


type XSD.UnsignedShort To3g324mDegVideoBitrateThrH264Type_17 (0 .. 52)
with {
  variant "name as 'to3g324mDegVideoBitrateThrH264Type-17'";
};


type XSD.Token EchoDisablingModeType_108 (pattern "g164|g165|g168")
with {
  variant "name as 'echoDisablingModeType-108'";
};


type XSD.UnsignedInt TrafficSupervisionMaliciousPacketsThrType_78 (0 .. 60000000)
with {
  variant "name as 'trafficSupervisionMaliciousPacketsThrType-78'";
};


type XSD.Token DeviceNameType_153 length(1 .. 61)
with {
  variant "name as 'deviceNameType-153'";
};


/* This datatype is used to show the current operational state of an interface.
      Note: value 3, 4, 5 and 6 are not used
        1 - enabled, the resulting state when the link is unlocked. This means that
            interface is ready to transmit and receive network traffic.
        2 - disabled, the resulting state when the link is locked or the interface
            is faulty. No network traffic can be transmitted and received traffic
            is discarded.
        7 - lowerLayerDown, The interface is down due to the status of the blade
            or the lower layer interface(s). */
type XSD.UnsignedShort IntfIfOperStatus (1 .. 7);


/* This datatype is used to show the administrative state of an interface.
        1 - unlocked
        2 - locked */
type XSD.UnsignedShort IntfIfAdminStatus (1 .. 2);


type XSD.UnsignedShort T95Type_134 (100 .. 10000)
with {
  variant "name as 't95Type-134'";
};


type XSD.UnsignedShort PulseComp1Type_24 (1 .. 60000)
with {
  variant "name as 'pulseComp1Type-24'";
};


/* This counter type is used for statistics showing accumulations. This 
      counter increases until it reaches a maximum value of 2^64-1, 
      when it wraps around and restarts from zero. */
type XSD.UnsignedLong IntfCounter64 (0 .. 18446744073709551615);


/* This counter type is used for statistics showing accumulations. This 
      counter increases until it reaches a maximum value 
      of 2^64-1, when it wraps around and restarts from zero. */
type XSD.UnsignedLong MbqmCounter64 (0 .. 18446744073709551615);


type XSD.Token ProtocolSideType_205 (pattern "A|B|network|user")
with {
  variant "name as 'protocolSideType-205'";
};


type XSD.UnsignedShort PauseComp1Type_25 (0 .. 60000)
with {
  variant "name as 'pauseComp1Type-25'";
};


/* This datatype defines the signaling link framing types.
        1 - BasicFrame (basic frame, no processing of CRC-4)
        2 - 24-frame multiframe (ESF - Extended Super Frame) */
type XSD.UnsignedShort IntfSignLinkLineType (1 .. 2);


/* This datatype defines the source for the timing on the transmitting TDM interface.
        1 - netsync, timing is taken from the backplane clock, automatic selection 
                     of plane A or plane B.
        2 - looped, timing is taken from the incoming TDM interface. */
type XSD.UnsignedShort IntfTxClockSource (1 .. 2);


type XSD.UnsignedShort RetransmissionTimerType_206 (100 .. 10000)
with {
  variant "name as 'retransmissionTimerType-206'";
};


type XSD.Token NameType_136 length(1 .. 35)
with {
  variant "name as 'nameType-136'";
};


type XSD.UnsignedShort AdapJitBufSizeType_106 (20 .. 200)
with {
  variant "name as 'adapJitBufSizeType-106'";
};


type XSD.UnsignedShort VideoBufferCongThrType_6 (0 .. 10000)
with {
  variant "name as 'videoBufferCongThrType-6'";
};


type XSD.UnsignedShort InStreamsType_188 (2 .. 400)
with {
  variant "name as 'inStreamsType-188'";
};


type XSD.Token EchoCancelType_168 (pattern "true|false")
with {
  variant "name as 'echoCancelType-168'";
};


type XSD.Token OverloadNotificationsType_148 (pattern "enabled|disabled")
with {
  variant "name as 'overloadNotificationsType-148'";
};


type XSD.Token DomainNameType_138 length(1 .. 32)
with {
  variant "name as 'domainNameType-138'";
};


type XSD.Token ResourceType_98 (pattern "voice|videoStreaming|videoInteractive")
with {
  variant "name as 'resourceType-98'";
};


/* The number of relevant bits in an IP address. */
type XSD.UnsignedShort NibsIpMaskLength (0 .. 32);


type XSD.Token SpeechConvType_169 (pattern "true|false")
with {
  variant "name as 'speechConvType-169'";
};


/* Defines how to treat corrupt video data.
        1 - Treat corrupt data as lost, i.e. as specified by the LostVideoDataStrategy attribute.
        2 - Forward corrupt video data as is. */
type XSD.UnsignedShort DspcpCorruptVideoDataStrategy (1 .. 2);


/* This datatype defines the loopback types. Data received from a TDM interface on
      the front of the blade can be looped back to the TDM interface, and data 
      received from the MXB through the internal Ethernet interface connected to the
      backplane can be looped back to the MXB.
      The loopback is transparent, which means that data are both forwarded and looped.
      A loopback can be used for testing the interface, or for making quality 
      measurements
        1 - off, data are not looped back.
        2 - line, data from the TDM interface on the front of the blade are sent back
            to the TDM interface.
        3 - local, data from the MXB are sent back to the MXB via the backplane
            Ethernet interface. */
type XSD.UnsignedShort IntfLoopback (1 .. 3);


/* This datatype is used when configuring MS-REI/REI-L insertion activation.
         1 - off, a zero value will be inserted 
         2 - on, a non-zero value will be inserted
         3 - auto 
            * SDH: The hardware automatically inserts a value based on the BIP 
            counter value of received B2 errors (Multiplexor Section Overhead)
            *SONET: The M1 byte and G1:1-4 will be given the number of BIP-24
            errors or BIP-8 errors */
type XSD.UnsignedShort IntfReiInsertion (1 .. 3);


/* This datatype is used when defining the mode of HP-RDI insertion activation.
        1 - off, turns off HP-RDI/RDI-P insertion.        
        2 - auto, the consequent action HP-RDI/RDI-P will be generated on LOS, LOF, 
            MS-AIS/AIS-L, AU-LOP/LOP-P or AU-AIS/AIS-P.
        3 - autoPlm, HP-RDI will be generated for LOS, LOF, MS-AIS/AIS-L, 
            AU-AIS/AIS-P, AU-LOP/LOP-P or HP-PLM/PLM-P.
        4 - autoPlmTim, HP-RDI/RDI-P will be generated automatically on occurrence of 
            received LOS, LOF, MS-AIS/AIS-L, AU-AIS/AIS-P, AU-LOP/LOP-P, 
            HP-PLM/PLM-P or HP-TIM/TIM-P. */
type XSD.UnsignedShort IntfPathRdiInsertion (1 .. 4);


type XSD.UnsignedShort RemotePortType_160 (1024 .. 65534)
with {
  variant "name as 'remotePortType-160'";
};


type XSD.UnsignedShort ModulationRatioABComp4Type_50 (1 .. 99)
with {
  variant "name as 'modulationRatioABComp4Type-50'";
};


type XSD.Token OverloadNotificationsType_131 (pattern "enabled|disabled")
with {
  variant "name as 'overloadNotificationsType-131'";
};


type XSD.Token ProfileNameType_112 (pattern "ericsson_mgw|etsi_agw|etsi_tgw|ericsson_mgc_tgw|tispan-tgw|eri3-1|vig-3g324m")
with {
  variant "name as 'profileNameType-112'";
};


type XSD.Token PacketizationTimeType_102 (pattern "Ptime-60|Ptime-40|Ptime-30|Ptime-20|Ptime-10|Ptime-5|noValue")
with {
  variant "name as 'packetizationTimeType-102'";
};


type XSD.UnsignedShort ModulationRatioABComp2Type_34 (1 .. 99)
with {
  variant "name as 'modulationRatioABComp2Type-34'";
};


type XSD.Token IpTermNameType_155 length(1 .. 61)
with {
  variant "name as 'ipTermNameType-155'";
};


type XSD.UnsignedShort PulseComp5Type_56 (1 .. 60000)
with {
  variant "name as 'pulseComp5Type-56'";
};


type XSD.UnsignedInt ContextIdType_167 (0 .. 4294967295)
with {
  variant "name as 'contextIdType-167'";
};


type XSD.UnsignedShort PauseComp5Type_57 (0 .. 60000)
with {
  variant "name as 'pauseComp5Type-57'";
};


/* Specifies how many bits of an IP address are valid and that 
      should be considered as the IP address prefix. */
type XSD.UnsignedShort MbqmPrefixMaskLength (0 .. 32);


/* This datatype is used to configure whether an alarm will be activated or not.
         1 - on, an alarm will be sent when a defect indication is detected
         2 - off, turns off alarm sending */
type XSD.UnsignedShort IntfAlarmActivation (1 .. 2);


type XSD.UnsignedShort IterateComp2Type_31 (1 .. 100)
with {
  variant "name as 'iterateComp2Type-31'";
};


/* Gauge. This type is used for weighted average statistics.
      It represents a non-negative integer, which may increase or decrease. */
type XSD.UnsignedInt IntfGauge32 (0 .. 4294967295);


type XSD.UnsignedShort TimingOutletSrcType_85 (0 .. 15)
with {
  variant "name as 'timingOutletSrcType-85'";
};


type XSD.UnsignedShort LocalPortType_156 (1024 .. 4095)
with {
  variant "name as 'localPortType-156'";
};


type XSD.UnsignedShort MGOriginatedPendingLimitType_126 (1 .. 65535)
with {
  variant "name as 'mGOriginatedPendingLimitType-126'";
};


type XSD.Token LineTypeType_199 (pattern "public|private")
with {
  variant "name as 'lineTypeType-199'";
};


type XSD.UnsignedShort EstAudioStatJitBufType_109 (5 .. 100)
with {
  variant "name as 'estAudioStatJitBufType-109'";
};


type XSD.UnsignedShort ToIpDegVideoCallThrType_20 (0 .. 100)
with {
  variant "name as 'toIpDegVideoCallThrType-20'";
};


type XSD.UnsignedShort MaxOutstandingFramesType_201 (1 .. 127)
with {
  variant "name as 'maxOutstandingFramesType-201'";
};


type XSD.UnsignedShort OutStreamsType_191 (2 .. 400)
with {
  variant "name as 'outStreamsType-191'";
};


type XSD.UnsignedShort ValCookieLifeType_72 (120 .. 60000)
with {
  variant "name as 'valCookieLifeType-72'";
};


type XSD.UnsignedShort MaxRetransmissionsType_202 (1 .. 128)
with {
  variant "name as 'maxRetransmissionsType-202'";
};


type XSD.Token SctpModeType_193 (pattern "client|server")
with {
  variant "name as 'sctpModeType-193'";
};


type XSD.UnsignedShort SctpHbIntervalType_133 (1 .. 10)
with {
  variant "name as 'sctpHbIntervalType-133'";
};


type XSD.Token ProfileStringType_113 length(1 .. 32)
with {
  variant "name as 'profileStringType-113'";
};


type XSD.Token ProtocolType_204 (pattern "ISDN|DPNSS|DASS2")
with {
  variant "name as 'protocolType-204'";
};


type XSD.UnsignedShort InterfaceIdType_194 (0 .. 65535)
with {
  variant "name as 'interfaceIdType-194'";
};


type XSD.UnsignedShort RtoMinType_64 (40 .. 5000)
with {
  variant "name as 'rtoMinType-64'";
};


/* This counter type is used for statistics showing accumulations. This 
                counter increases until it reaches a maximum value 
                of 2^64-1, when it wraps around and restarts from zero. */
type XSD.Integer NibsCounter64;


type Restricted_confd_objectRef_208 NexthopType_95 length(1 .. 77)
with {
  variant "name as 'nexthopType-95'";
};


/* Virtual media gateway domain name.
      The first character must be an alphanumeric character (a..z or 0..9) 
      followed by any of:
      a..z
      0..9
      .
      - */
type XSD.Token GwmVmgwDomainName (pattern "[a-z0-9][a-z0-9?-]*") length(0 .. 32);


/* The administrative state.
                        It is used both to display the result of reading the state
                        and to set the state.
                        1 unlock/ed
                        2 shut/ting down
                        3 lock/ed */
type XSD.UnsignedShort NibsAdministrativeState (1 .. 3);


type XSD.UnsignedShort AddrCollEventFilterlType_77 (1 .. 255)
with {
  variant "name as 'addrCollEventFilterlType-77'";
};


/* Octet string (size(0..255)) */
type XSD.Token GwmDisplayString length(0 .. 255);


type XSD.UnsignedInt MaximumWaitDelayType_128 (0 .. 600000)
with {
  variant "name as 'maximumWaitDelayType-128'";
};


type XSD.Token MsgIdFormatType_129 (pattern "domain-address|domain-name|device-name")
with {
  variant "name as 'msgIdFormatType-129'";
};


type XSD.UnsignedInt TrafficSupervisionExcessiveBandwidthHysType_81 (0 .. 1999999)
with {
  variant "name as 'trafficSupervisionExcessiveBandwidthHysType-81'";
};


type XSD.UnsignedShort AdminStateType_1 (0 .. 1)
with {
  variant "name as 'adminStateType-1'";
};


type XSD.UnsignedShort RemotePortType_192 (0 .. 65535)
with {
  variant "name as 'remotePortType-192'";
};


type XSD.UnsignedShort TrafficSupervisionMediaStopSupervisionType_82 (0 .. 1440)
with {
  variant "name as 'trafficSupervisionMediaStopSupervisionType-82'";
};


type XSD.Token MgcLinkStatusType_203 (pattern "unknown|locked|unlocked")
with {
  variant "name as 'mgcLinkStatusType-203'";
};


type XSD.UnsignedShort MGOriginatedPendingLimitType_143 (1 .. 65535)
with {
  variant "name as 'mGOriginatedPendingLimitType-143'";
};


type XSD.UnsignedShort TrafficSupervisionMaliciousTrafficLogType_83 (1 .. 2)
with {
  variant "name as 'trafficSupervisionMaliciousTrafficLogType-83'";
};


type XSD.UnsignedShort FrequencyAComp3Type_43 (1 .. 4000)
with {
  variant "name as 'frequencyAComp3Type-43'";
};


type XSD.UnsignedShort IterateComp1Type_23 (1 .. 100)
with {
  variant "name as 'iterateComp1Type-23'";
};


/* Alphanumeric string. */
type XSD.Token GwmAlphaNumericString_l53 (pattern "[a-zA-Z0-9]*") length(1 .. 53);


type XSD.Token CodecPtimeType_174 (pattern "Ptime-10|Ptime-20|Ptime-30|Ptime-40|Ptime-60|noOverride")
with {
  variant "name as 'codecPtimeType-174'";
};


type XSD.Token RtcpForwardingType_114 (pattern "drop|on")
with {
  variant "name as 'rtcpForwardingType-114'";
};


type XSD.UnsignedShort FrequencyBComp3Type_45 (1 .. 4000)
with {
  variant "name as 'frequencyBComp3Type-45'";
};


/* Virtual media gateway name.
      The first character must be a letter (a..z) followed by any of:
      a..z
      0..9
      / (forward slash)
      _ (underscore). */
type XSD.Token GwmAlphaNumericFsUs_beginAlpha_l35 (pattern "[a-z][a-z0-9/_]*") length(1 .. 35);


type XSD.UnsignedShort IdlePollTimerType_198 (5 .. 600)
with {
  variant "name as 'idlePollTimerType-198'";
};


type XSD.Token LicenseKeyType_99 length(1 .. 35)
with {
  variant "name as 'licenseKeyType-99'";
};


type XSD.Token PayloadTypeType_101 (pattern "amr|clearchannel|cn|evrc|g711alaw|g711ulaw|g723|g726|g729|g729a|g729ab|h263v1|h263v2|h263vx|h264|mpeg4|t38|tr")
with {
  variant "name as 'payloadTypeType-101'";
};


type XSD.UnsignedShort SubportType_91 (0 .. 28)
with {
  variant "name as 'subportType-91'";
};


type XSD.Token DefaultEchoCancellationType_162 (pattern "on|off")
with {
  variant "name as 'defaultEchoCancellationType-162'";
};


type XSD.Token NameType_22 length(0 .. 64)
with {
  variant "name as 'nameType-22'";
};


type XSD.UnsignedShort LevelAComp3Type_44 (0 .. 63)
with {
  variant "name as 'levelAComp3Type-44'";
};


type XSD.UnsignedInt MaximumWaitDelayType_145 (0 .. 600000)
with {
  variant "name as 'maximumWaitDelayType-145'";
};


type XSD.UnsignedShort IterateComp5Type_55 (1 .. 100)
with {
  variant "name as 'iterateComp5Type-55'";
};


type XSD.HexBinary BitmapType_196 length(4)
with {
  variant "name as 'bitmapType-196'";
};


type XSD.Token MsgIdFormatType_146 (pattern "domain-address|domain-name|device-name")
with {
  variant "name as 'msgIdFormatType-146'";
};


type XSD.UnsignedShort LevelBComp3Type_46 (0 .. 63)
with {
  variant "name as 'levelBComp3Type-46'";
};


type XSD.UnsignedShort AssociationMaxRetransType_68 (1 .. 20)
with {
  variant "name as 'associationMaxRetransType-68'";
};


type XSD.UnsignedShort ToIpDegVideoBitrateThrH264Type_18 (0 .. 52)
with {
  variant "name as 'toIpDegVideoBitrateThrH264Type-18'";
};


type XSD.UnsignedShort LocalPortType_189 (1024 .. 65535)
with {
  variant "name as 'localPortType-189'";
};


type XSD.UnsignedShort LipSyncFineTuningStreamingType_9 (0 .. 300)
with {
  variant "name as 'lipSyncFineTuningStreamingType-9'";
};


/* The Management Information Model (MIM) for an MGW blade system in IS.
    All MGW Managed Object Classes (MOC) are described with their attributes, 
    actions and relationships.
    
    The MGW MIM is mounted into IS MIM on the IS Blade Systems branch and is
    integrated with IS Common Management Framework (CMF) function.
    Configuration of MGW over IS CMF Netconf interface is then enabled with
    the XML schema as described in the MIM.
    
    Compliance with NETCONF RFC 4741 is described in MGW MIM specification
    (1/155 54-CSA 101 05/3).

    In general the following error handling with Netconf applies to MGW:
    
    1) Non-compliant Netconf operations not supported
    
    2) Create MO cannot be performed (operation-failed) in the following cases:
       - if MO is system created
       - if MO has reference to non-existing MO
       - if mandatory attributes are missing
       - if attribute is of wrong type or value not within range
       
       Delete MO cannot be performed (operation-failed) in the following cases:
       - if MO is system created
       - if MO contains childs and the childs are not system created
       - if MO is referred to from other MO in the model

    3) Any MOC specific error case is described in the MOC description. */
/* This class defines a blade in a blade system, created from IS hardware 
      management. The blades must work in pairs for redundancy, that is, the number of 
      blades in a blade system can be 2, 4, 6, etc.
      For bladetype MSP-STM1 and MSP-OC3 there is one TDM interface and for MSP-16E1T1
      there are sixteen TDM interfaces per blade connecting the MGW blade to an outside 
      network, either SDH (MSP-STM1), SONET (MSP-OC3), 16E1 (MSP-16E1T1) or 16T1 (MSP-16E1T1).       
      An E1/T1 signaling link interface on MSP-STM1 and MSP-OC3 can be used to connect the 
      MGW blade system to a Gateway Controller.
      The Ethernet interface is an IS-internal interface that transports IP traffic,
      and connects to the MXB blades systems via the IS backplane. 
      Note: The Netconf implementation does not support change of image type. 
      The image type is called 'media profile' in the Customer Product Information (CPI)
      and in the ISM (IS Management system).
      Note: It is not possible to use different sublink numbering schemes in a blade
      system, all blades must have the same setting on attribute klmNumberingScheme. */
/* The subrack and slot position of the blade, for example, "0-3". */
/* This attribute is used to show the image that is loaded to the media processing devices.
        Note: The Netconf implementation does not support change of image type. 
        Image type is called 'media profile' in the Customer Product Information (CPI)
        and in the IS Management system (ISM). The default setting is 'voiceStandard'. */
/* This attribute is used to show the interface type for all the interfaces of a MSP-16E1T1 blade.
        Note: The Netconf implementation does not support change of interface type. 
        The default setting is 'E1'. */
/* The blade type, for example, "MSP-STM1". */
/* This attribute is used to configure the clock source. The chosen source will be used as transmit 
        clock source for the TDM interface and the signaling link interface.
        The default setting is 'netsync'.
        Note: This attribute is only valid for bladetype MSP-STM1 and MSP-OC3. */
/* This attribute is used to configure the numbering scheme for SDH/SONET subports.
        The default setting is 'LinearITU-T_zeroNum'.
        Note: Changing klmNumberingScheme requires that the new value is set on all blades in the blade system. 
        The information in outstanding link alarms will not be affected when changing this attribute. */
/* This attribute is used to configure the timing outlet source. 
        The incoming link selected as the timing outlet source from the specified blade.
        The default setting is 'interface0'.
        Note: This attribute is only valid for bladetype MSP-16E1T1. */
/* This attribute is used to configure the clock source. Either
        BackplaneA, BackplaneB, automatic selection of BackplaneA or BackplaneB
        or the timing outlet source can be selected.
        Note: This attribute is only valid for bladetype MSP-16E1T1. */
/* Shows the number of ephemeral termination set-up attempts per CH-CP.
        Family=Processing load statistics. */
/* Shows the number of failed ephemeral termination set-up attempts per CH-CP.
        Family=Processing load statistics. */
/* Shows the number of ephemeral terminations in traffic per CH-CP.
        Family=Processing load statistics. */
/* Shows the number of ephemeral termination set-up attempts per CH-CP.
        Family=Processing load statistics. */
/* The Control Processor with the control software. */
/* Shows the load on the CPU in percent (0 - 100).
        Family = CP statistics. */
/* Shows how much memory is used in the control 
        processor in megabytes.
        Family = CP statistics. */
/* Shows how much memory is utilized in the control 
        processor in percent (0-100).
        Family = CP statistics. */
/* Shows the CP's class (base, expansion) */
/* Shows the operational state of CP */
/* Shows the administration state of CP */
/* This class defines the 2 Mbit/s E1 interface for the MSP-16E1T1 blade.
      Note: To be able to configure line type and loopback type, 
      the interface has to be locked.
      The E1Interface class has the following measurement families:
      * Near end E1
      * Far end E1
      * E1 Alarm counters */
/* A physical interface on the front of the blade. There are 16 physical E1 interfaces (ports). */
/* This attribute shows the administrative state of an E1 interface. */
/* This attribute shows the operational state of an E1 interface. */
/* This attribute presents the number of bits/second transported by an E1 interface. */
/* This attribute shows the time when an E1 interface entered its operational state. */
/* This attribute shows if multiframe alignment is achieved or not. 
        If multiframe alignment is not achieved the far end is considered to be
        a non CRC-4 equipment, corresponding BasicFrame.
        If multiframe alignment is achieved, corresponding MultiFrame. */
/* This attribute is used to lock or unlock an E1 interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the E1 interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive 
        name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for 
        the E1 intferface. 
        The default setting is 'disabled'. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for test purpose and the link has 
        to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This attribute is for configuring the framing type for the E1 interface. 
        Note: The E1 interface has to be locked before setting linetype.
        The default setting is 'multiframeAuto'. */
/* This attribute is for activation or deactivation of alarm 
         when Alarm Indication Signal (AIS) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm 
         when Remote Defect Indication (RDI) is received. 
         The default setting is 'on'. */
/* This attribute is used to configure the clock source. The chosen source 
        will be used as transmit clock source for the E1 interface.
        The default setting is 'netsync'. */
/* An integer value N that defines the threshold value for excessive Bit Error Rate (BER) on the E1 interface. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the excessive BER falls below one tenth of the threshold value.
        The threshold value must not be less than the linkDegBerThr threshold.
        The default attribute value is 3, corresponding to a threshold value of 10^-3, for both CRC4 and Basic frame mode. */
/* An integer value N that defines the threshold value for degraded Bit Error Rate (BER) on the E1 interface. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the degraded BER falls below one tenth of the threshold value.
        The threshold value must not be greater than the linkExcBerThr threshold.
        The default attribute value is 5, corresponding to a threshold value of (10^-5), when Basic frame mode is used and 
        the default attribute value is 6, corresponding to a threshold value of (10^-6), when CRC4 frame mode used. */
/* Shows E1 Background Block Errors (BBE).
        Family=Near end E1. */
/* Shows E1 Errored Seconds (ES).
        Family=Near end E1. */
/* Shows E1 Severely Errored Seconds (SES).
        Family=Near end E1. */
/* Shows E1 UnAvailable Time (UAT).
        Family=Near end E1. */
/* Shows Far End E1 Background Block Errors (BBE).
        Family=Far End E1. */
/* Shows Far End E1 Errored Seconds (ES).
        Family=Far End E1. */
/* Shows Far End E1 Severely Errored Seconds (SES).
        Family=Far End E1. */
/* Shows Far End E1 UnAvailable Time (UAT).
        Family=Far End E1. */
/* Shows E1 alarm counter handled slip events.
        Family=E1 alarm counters. */
/* Shows E1 alarm counter detected Loss Of Frame (LOF).
        Family=E1 alarm counters. */
/* Shows E1 alarm counter detected Alarm Indication Signal (AIS).
        Family=E1 alarm counters. */
/* Shows E1 alarm counter detected Remote Defect Indication (RDI).
        Family=E1 alarm counters. */
/* The Ethernet interface is an IS-internal interface which transports IP traffic,
      via the IS backplane and the MXB. The interfaces are 
      created automatically at the creation of a blade. No configuration can be done 
      for these Ethernet interfaces.
      The internal Ethernet interface class has the following measurement 
      families:
      * Traffic management statistics
      * Ethernet interface statistics
      * Ethernet interface error details
      * Ethernet interface RMON statistics
      * Bandwidth statistics */
/* A physical interface on a blade, that is, one of the two internal 
        Ethernet interfaces in the backplane (0 or 1). */
/* The number of transmitted packets belonging to the DiffServ class 
        Expedited Forwarding (EF).
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Network Control (NC)/Internetwork Control (IC).
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Assured Forwarding (AF)1.
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Assured Forwarding (AF)2.
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Assured Forwarding (AF)3.
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Assured Forwarding (AF)4.
        Family=Traffic management statistics. */
/* The number of transmitted packets belonging to the DiffServ class 
        Default Forwarding (DF).
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the 
        DiffServ class Expedited Forwarding (EF).
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the
        DiffServ class Network Control (NC)/Internetwork Control (IC).
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the
        DiffServ class Assured Forwarding (AF)1.
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the 
        DiffServ class Assured Forwarding (AF)2.
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the
        DiffServ class Assured Forwarding (AF)3.
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the 
        DiffServ class Assured Forwarding (AF)4.
        Family=Traffic management statistics. */
/* The number of packets discarded due to buffer limit exceeded for the 
        DiffServ class Default Forwarding (DF).
        Family=Traffic management statistics. */
/* The number of packets sent from the NP to the CP.
        Family=Traffic management statistics. */
/* The number of discarded packets sent from the NP to the CP.
        Family=Traffic management statistics. */
/* The total number of transmitted frames, including bad frames due to 
        underrun or undersize.
        Family=Ethernet interface statistics. */
/* The number of transmitted octets. This number also includes bad frames due 
        to underrun and undersize. The Ethernet header and Frame Check 
        Sequence (FCS) is included, but preamble, Start of 
        Frame Delimiter (SDF), and Inter-Frame Gap are not included.
        Family=Ethernet interface statistics. */
/* The number of received valid frames, that is, frames with no Cyclic 
        Redundancy Check (CRC) errors, not undersized, not oversized.
        Family=Ethernet interface statistics. */
/* The number of octets received in all frames (valid frames as well as 
        invalid frames). The Ethernet header and Frame Check Sequence (FCS) 
        is included, but preamble, Start of Frame Delimiter (SDF) and 
        Inter-Frame Gap are not included.
        Family=Ethernet interface statistics. */
/* The number of transmitted broadcast frames.
        Family=Ethernet interface statistics. */
/* The number of received broadcast frames.
        Family=Ethernet interface statistics. */
/* The number of received frames that were discarded due to overflow.
        Family=Ethernet interface statistics. */
/* The number of frames that were not transmitted due to underflow.
        Family=Ethernet interface statistics. */
/* This counter represents the total sum of all received invalid frames 
        that were discarded:
        * Received frames discarded due to unknown Ethernet protocol.
        * Received frames discarded due to other reasons.
        Family=Ethernet interface statistics. */
/* The number of frames received that were discarded due to:
        * Unsupported Ethernet format (that is, not DIX coding).
        * Unsupported Ethernet Type (that is, not Address Resolution 
          Protocol (ARP), IPv4 or IPv6).
        * Invalid loop test frames.
        Family=Ethernet interface error details. */
/* The number of received frames that were discarded due to:
        * Stacked Virtual Local Area Network (VLAN) tags.
        * VLAN-tagged frame with Canonical Format Indicator (CFI)=1.
        Family=Ethernet interface error details */
/* . */
/* The number of received frames with a length of exactlay 64 octets.
        All frames are counted, valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The number of received frames that had a length
        between 65 and 127 octets. All frames are counted, 
        valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The number of received frames that had a length
        between 128 and 255 octets. All frames are counted, 
        valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The number of received frames that had a length
        between 256 and 511 octets. All frames are counted, 
        valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The number of received frames that had a length
        between 512 and 1023 octets. All frames are counted, 
        valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The number of received frames that had a length
        between 1024 and 1522 octetss. All frames are counted, 
        valid as well as invalid frames.
        Family=Ethernet interface RMON statistics. */
/* The total receive bandwidth in octets per second. The bandwidth 
        is the mean value measured over the last 8-second period.
        Family=Bandwidth statistics. */
/* The total transmit bandwidth in octets per second. The bandwidth 
        is the mean value measured over the last 8-second period.
        Family=Bandwidth statistics. */
/* Licence handling for MGW. */
/* The function for which the license is valid. NOTE: Voice license type is
    only used for backward compatibility purposes, do not use it! */
/* This attribute shows the current limit for a particular license 
        resource and allows you to specify a new limit. The highest possible 
        value this attribute can be set to is the value of the attribute 
        maxLimit. */
/* The current resource utilization. If the maximum limit is reached, an 
        event is issued. This value is for statistics purpose. */
/* The license key for the license resource. */
/* This is the maximum possible limit for the particular license resource.
        The maximum limit depends on the type of resource, such as voice or 
        video and is different for MSP-STM1, MSP-OC3 and MSP-16E1T1. */
/* This value indicates in how small steps the current limit can be 
        changed. */
/* This class defines an STM-1 interface including the SDH RS and MS link layers, 
      and SDH high order path (VC-4) representing end-to-end data flow.
      NOTE: The SDH link has to be locked to change loopback. 
      The SdhInterface class has the following measurement families:
      * SDH RS
      * SDH MS
      * Far end SDH MS
      * SDH path
      * Far end SDH Path */
/* This attribute shows the administrative state of the SDH link interface. */
/* This attribute shows the operational state of the SDH link interface. */
/* This attribute presents the number of bits/second transported by a SDH link. */
/* This attribute shows the time when the SDH link interface entered its operational state. */
/* This attribute is used to lock or unlock the SDH link interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
      It is used to identify interfaces by a text name, an option to assign a descriptive 
      name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SDH link interface. 
        The default setting is 'disabled'. */
/* This attribute defines loopback configuration.
        NOTE: Loopback is only used for test purpose and the link has to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This attribute is for activation or deactivation of alarm when Alarm Indication Signal (MS-AIS) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication (MS-RDI) is received. 
        The default setting is 'on'. */
/* This attribute allows you to specify whether the deactivation or automatic insertion of a Higher order Path - Remote Defect Indication (HP-RDI) is to occur on the interface. 
        The default setting is 'autoRdi'. */
/* This attribute controls the automatic insertion of a Multiplex Section - Remote Error Indication (REI) on the upstream interface.  
        The default setting is 'auto'. */
/* This attribute sets the Unavailability state mode, single or both directions considered when Unavailable Time (UAT) is determined. 
        It applies to all signal levels. The default setting is 'unidirectional'. */
/* An integer value N that defines the threshold value for excessive Bit Error Rate (BER) on the SDH level. The threshold        value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the excessive BER falls below one tenth of the threshold value.
        The threshold value must not be less than the linkDegBerThr threshold.
        The default attribute value is 3, corresponding to a threshold value of 10^-3. */
/* An integer value N that defines the threshold value for degraded Bit Error Rate (BER) on the SDH level. The threshold         value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the degraded BER falls below one tenth of the threshold value.
        The threshold value must not be greater than the linkExcBerThr threshold.
        The default attribute value is 6, corresponding to a threshold value of 10^-6. */
/* This attribute is an alias name for the interface as specified by a network manager. 
        It provides a non-volatile handle for the interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SDH path interface. 
        The default setting is 'disabled' */
/* This attribute is for activation or deactivation of alarm when Alarm Indication Signal (AU-AIS) is received. 
        The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication (HP-RDI) is received. 
        The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when PayLoad Mismatch (HP-PLM) has occurred. 
        The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Trace Identifier Mismatch (HP-TIM) has occurred. 
        The default setting is 'on'. */
/* This attribute controls the Remote Defect Indication (RDI) insertion mode on path layer.
         The default setting is 'autoPlmTim'. */
/* This attribute defines a sent trace identifier, a text string identifying the near end node.      
        The maximum string length is 15 characters.
        The default setting is '' (empty string). */
/* This attribute defines an expected trace identifier, a text string which is compared with the string received from the far end node. 
        An HP-TIM alarm will be sent if there is a mismatch between this string and the string that is received. 
        The maximum string length is 15 characters.
        The default setting is '' (empty string). */
/* An integer value N that defines the threshold value for excessive Bit Error Rate (BER) on the SDH path level. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the excessive BER falls below one tenth of the threshold value.
        The threshold value must not be less than the pathDegBerThr threshold.
        The default attribute value is 3, corresponding to a threshold value of 10^-3. */
/* An integer value N that defines the threshold value for degraded Bit Error Rate (BER) on the SDH path level. The thres        hold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the degraded BER falls below one tenth of the threshold value.
        The threshold value must not be greater than the pathExcBerThr threshold.
        The default attribute value is 6, corresponding to a threshold value of 10^-6. */
/* Shows Regeneration Section (RS) Background Block Errors (BBE).
        Family=SDH RS. */
/* Shows Regeneration Section (RS) Errored Seconds (ES).
        Family=SDH RS. */
/* Shows Regeneration Section (RS) Severely Errored Seconds (SES).
        Family=SDH RS. */
/* Shows Regeneration Section (RS) UnAvailable Time (UAT).
        Family=SDH RS. */
/* Shows Multiplex Section (MS) Background Block Errors (BBE).
        Family=SDH MS. */
/* Shows Multiplex Section (MS) Errored Seconds (ES).
        Family=SDH MS. */
/* Shows Multiplex Section (MS) Severely Errored Seconds (SES).
        Family=SDH MS. */
/* Shows Multiplex Section (MS) UnAvailable Time (UAT).
        Family=SDH MS. */
/* Shows Far End Multiplex Section (MS) Background Block Errors (BBE). 
        Family=Far end SDH MS. */
/* Shows Far End Multiplex Section (MS) Errored Seconds (ES).
        Family=Far end SDH MS. */
/* Shows Far End Multiplex Section (MS) Severely Errored Seconds (SES). 
        Family=Far end SDH MS. */
/* Shows Far End Multiplex Section (MS) UnAvailable Time (UAT).
        Family=Far end SDH MS. */
/* Shows SDH path Background Block Errors (BBE).
        Family=SDH path. */
/* Shows SDH path Errored Seconds (ES).
        Family=SDH path. */
/* Shows SDH path Severely Errored Seconds (SES).
        Family=SDH path. */
/* Shows SDH path UnAvailable Time (UAT).
        Family=SDH path. */
/* Shows Far End SDH path Background Block Errors (BBE).
        Family=Far end SDH path. */
/* Shows Far End SDH path Errored Seconds (ES).
        Family=Far end SDH path. */
/* Shows Far End SDH path Severely Errored Seconds (SES).
        Family=Far end SDH path. */
/* Shows Far End SDH path UnAvailable Time (UAT).
        Family=Far end SDH path. */
/* This class defines the SDH subLink interface representing the lower path with 
      Virtual Containers (VC-12) on SDH path and the 2 Mbit/s E1 interface. 
      There are 63 VC-12 on a VC-4 path.
      Note: To be able to configure linetype and loopback, the sublink has to be 
      locked.
      The SDH sublink class has the following measurement families:
      * SDH low path
      * Far end SDH low path
      * SDH low path alarm counters
      * E1
      * Far end E1
      * E1 Alarm counters */
/* The subport number of the SDH sublink. There are 63 subports per SDH link,
        the numbering (0-62 or 1-63) depends on the KLM numbering configuration. */
/* This attribute shows the SDH sublink KLM number. */
/* This attribute shows the administrative state of the SDH sublink interface. */
/* This attribute shows the operational state of the SDH sublink interface. */
/* This attribute presents the number of bits/second transported by a SDH sublink. */
/* This attribute shows the time when the SDH sublink interface entered its operational state. */
/* This attribute is used to lock or unlock the sublink.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive 
        name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SDH lowpath layer of the sublink. 
        The default setting is 'disabled'. */
/* This attribute is for activation ordeactivation of alarm when Alarm Indication Signal (TU-AIS) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication (LP-RDI) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Payload Mismatch (LP-PLM) has occurred. 
         The default setting is 'on'. */
/* This attribute allows you to specify deactivation or automatic insertion of a Low order Path - Remote Defect Indication (LP-RDI) on the interface.
         The default setting is 'autoPlm'. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for test purpose, and the sublink has to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This attribute is for configuring the framing type for the SDH sublink. 
        Note: The sublink has to be locked before setting linetype.
        The default setting is 'multiframeAuto'. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SDH E1 layer of the sublink. 
        The default setting is 'disabled'. */
/* This attribute is for activation or deactivation of alarm when E1-AIS (Alarm Indication Signal) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when E1-RDI (Remote Defect Indication) is received. 
         The default setting is 'on'. */
/* Shows SDH low path Background Block Errors (BBE).
        Family=SDH low path. */
/* Shows SDH low path Errored Seconds (ES).
        Family=Far end SDH path. */
/* Shows SDH low path Severely Errored Seconds (SES).
        Family=Far end SDH path. */
/* Shows SDH low path UnAvailable Time (UAT).
        Family=Far end SDH path. */
/* Shows Far End SDH low path Background Block Errors (BBE).
        Family=Far end SDH low path. */
/* Shows Far End SDH low path Errored Seconds (ES).
        Family=Far end SDH low path. */
/* Shows Far End SDH low path Severely Errored Seconds (SES).
        Family=Far end SDH low path. */
/* Shows Far End SDH low path UnAvailable Time (UAT).
        Family=Far end SDH low path. */
/* Shows the number of negative TU pointer adjustment events. This is 
        a normal event occurring quite frequently It does not necessarily indicate a 
        fault situation.
        Family=SDH low path alarm counters. */
/* Shows the number of positive TU pointer adjustment events. This is 
        a normal event occurring quite frequently. It does not necessarily indicate a 
        fault situation.
        Family=SDH low path alarm counters. */
/* Shows the number of overrun or underrun in mapper FIFO. 
        This event indicates that too many pointer adjustments have occurred within a short period, 
        so that frequency changes have not been handled in a controlled way.
        Family=SDH low path alarm counters. */
/* Shows the number of TU-12 AIS detected on the sublink
        Family=SDH low path alarm counters. */
/* Shows the number of TU-12 LOP detected on the sublink
        Family=SDH low path alarm counters. */
/* Shows the number of VC-12 PLM detected on the sublink
        Family=SDH low path alarm counters. */
/* Shows the number of VC-12 RDI detected on the sublink.       
        Family=SDH low path alarm counters. */
/* Shows E1 Background Block Errors (BBE).
        Family=E1. */
/* Shows E1 Errored Seconds (ES).
        Family=E1. */
/* Shows E1 Severely Errored Seconds (SES).
        Family=E1. */
/* Shows E1 UnAvailable Time (UAT).
        Family=E1. */
/* Shows Far End E1 Background Block Errors (BBE).
        Family=Far end E1. */
/* Shows Far End E1 Errored Seconds (ES).
        Family=Far end E1. */
/* Shows Far End E1 Severely Errored Seconds (SES).
        Family=Far end E1. */
/* Shows Far End E1 UnAvailable Time (UAT).
        Family=Far end E1. */
/* Shows E1 Alarm counter for handled slip events.
        Family=E1 alarm counters. */
/* Shows E1 Alarm counter for detected LOF (Loss Of Frame).
        Family=E1 alarm counters. */
/* Shows E1 Alarm counter for detected AIS (Alarm Indication Signal).
        Family=E1 alarm counters. */
/* Shows E1 Alarm counter for detected RDI (Remote Defect Indication).
        Family=E1 alarm counters. */
/* This class defines the signaling interface, used to transport narrowband 
      signaling from MGW to GC. The interface could be of type E1 or T1.
      Note: The link has to be locked to configure loopback. */
/* This attribute shows the administrative state of the signaling interface. */
/* This attribute shows the operational state of the signaling interface. */
/* This attribute shows the framing type for the signaling link.
        Note: It is not possible to change the framing type.
        Note: This attribute is only valid for bladetype MSP-STM1 and MSP-OC3.
        The signaling link of type E1 will be set to 'BasicFrame' and the signaling link of type T1 will be set to '24-frame multiframe' (ESF - Extended Super Frame)'. */
/* This attribute presents the number of bits/second transported by the signaling link. */
/* This attribute shows the time when the signaling link interface entered its operational state. */
/* This attribute is for configuring the signaling link as either E1 or T1, independently of the TDM interface STM-1 or OC-3.
        Note: Before changing this attribute, the signaling link has to be locked and it must not haveing any signaling devices configured. 
        Note: This attribute is only valid for bladetype MSP-STM1 and MSP-OC3.
        The default setting is 'E1'. */
/* This attribute is used to lock or unlock the interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive 
        name to an interface. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for test purpose and the link has to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This class defines the SONET interface, an OC-3 interface including the SONET 
      Line and SONET Section.
      The SonetInterface class has the following measurement families:
      * SONET line
      * Far End SONET line
      * SONET section */
/* This attribute shows the administrative state of the SONET link interface. */
/* This attribute shows the operational state of the SONET link interface. */
/* This attribute presents the number of bits/second transported by a SONET link. */
/* This attribute shows the time when the SONET link interface entered its operational state. */
/* This attribute is used to lock orunlock a SONET link interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
       It is used to identify interfaces by a text name, an option to assign a descriptive name to an interface. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for testpurpose and the link has to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SONET link interface. 
        The default setting is 'disabled'. */
/* This attribute is for activation or deactivation of alarm when Alarm Indication Signal - SONET Line (AIS-L) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication - SONET Line (RDI-L) is received. 
        The default setting is 'on'. */
/* This attribute allows you to specify the automatic insertion of a Remote Defect Indication - SONET Line (RDI-L) on the interface.
        The default setting is 'autoRdi'. */
/* This attribute defines the insertion of a Remote Error Indication - SONET Line (REI-L) on the upstream interface.
        The default setting is 'auto'. */
/* This attribute sets the Unavailability state mode, single or both directions considered when UAT is determined. 
        It applies to all signal levels. The default setting is 'unidirectional'. */
/* An integer value N that defines the threshold value for excessive Bit Error Rate (BER) on the SONET level. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the excessive BER falls below one tenth of the threshold value.
        The threshold value must not be less than the degBerThr threshold.
        The default attribute value is 3, corresponding to a threshold value of 10^-3. */
/* An integer value N that defines the threshold value for degraded Bit Error Rate (BER) on the SONET level. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the degraded BER falls below one tenth of the threshold value.
        The threshold value must not be greater than the excBerThr threshold.
        The default attribute value is 6, corresponding to a threshold value of 10^-6. */
/* Shows SONET section Background Block Errors (BBE).
        Family=SONET section. */
/* Shows SONET section Errored Seconds (ES).
        Family=SONET section. */
/* Shows SONET section Severely Errored Seconds (SES).
        Family=SONET section. */
/* Shows SONET section UnAvailable Time (UAT).
        Family=SONET section. */
/* Shows SONET line Background Block Errors (BBE).
        Family=SONET line. */
/* Shows SONET line Errored Seconds (ES).
        Family=SONET line. */
/* Shows SONET line Severely Errored Seconds (SES).
        Family=SONET line. */
/* Shows SONET line UnAvailable Time (UAT).
        Family=SONET line. */
/* Shows Far End SONET line Background Block Errors (BBE).
        Family=Far End SONET line. */
/* Shows Far End SONET line Errored Seconds (ES).
        Family=Far End SONET line. */
/* Shows Far End SONET line Severely Errored Seconds (SES).
        Family=Far End SONET line. */
/* Shows Far End SONET line UnAvailable Time (UAT).
        Family=Far End SONET line. */
/* This class defines the SONET path link interface, an STS-1 high order path 
      representing the end-to-end data flow. 
      There are 3 paths on an OC-3 interface
      The SonetPathlink class has the following measurement families:
      * SONET path
      * Far End SONET path */
/* The path number for the SONET pathlink. */
/* This attribute shows the administrative state of the SONET pathlink interface. */
/* This attribute shows the operational state of the SONET pathlink interface. */
/* This attribute presents the number of bits/second transported by a SONET pathlink. */
/* This attribute shows the time that the SONET pathlink interface entered its operational state. */
/* This attribute is used to lock or unlock an SONET pathlink interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SONET pathlink interface.
        The default setting is 'disabled' */
/* This attribute is for activation or deactivation of alarm when Alarm Indication Signal (AIS-P) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication (RDI-P) is received. 
        The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when PayLoad Mismatch (PLM-P) has occurred. 
        The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Trace Identifier Mismatch (TIM-P) has occurred. 
        The default setting is 'on'. */
/* This attribute is for setting the RDI-P insertion mode.
         The default setting is 'auto'. */
/* This attribute is for setting the length of the trace identifier strings. 
        The default setting is 'char62'. */
/* This attribute defines a sent trace identifier, a text string identifying the near end node.
        This value must match the configured trace length (tiLength).
        The default setting is '' (empty string). */
/* This attribute defines an expected trace identifier, a text string which is compared with the string received from the far end node. 
        An TIM-P alarm will be sent if there is a mismatch between this strings. 
        This value must match the configured trace length (tiLength).
        The default setting is '' (empty string). */
/* An integer value N that defines the threshold value for excessive Bit Error Rate (BER) on the SONET path level. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the excessive BER falls below one tenth of the threshold value.
        The threshold value must not be less than the degBerThr threshold.
        The default attribute value is 3, corresponding to a threshold value of 10^-3.
        Note: all paths will be set to the same configuration. */
/* An integer value N that defines the threshold value for degraded Bit Error Rate (BER) on the SONET path level. 
        The threshold value is 10 raised to -N (10^-N). An alarm will be issued when the threshold has been reached.
        The alarm will be cleared when the degraded BER falls below one tenth of the threshold value.
        The threshold value must not be greater than the excBerThr threshold.
        The default attribute value is 6, corresponding to a threshold value of 10^-6. */
/* Shows SONET path Background Block Errors (BBE).
        Family=SONET path. */
/* Shows SONET path Errored Seconds (ES).
        Family=SONET path. */
/* Shows SONET path Severely Errored Seconds (SES).
        Family=SONET path. */
/* Shows SONET path UnAvailable Time (UAT).
        Family=SONET path. */
/* Shows Far End SONET path Background Block Errors (BBE).
        Family=Far End SONET path. */
/* Shows Far End SONET path Errored Seconds (ES).
        Family=Far End SONET path. */
/* Shows Far End SONET path Severely Errored Seconds (SES).
        Family=Far End SONET path. */
/* Shows Far End SONET path UnAvailable Time (UAT).
        Family=Far End SONET path. */
/* This class defines the SONET subLink interface, representing the 
      lower path with groups of Virtual Tributaries on SONET path and 
      the 1.5 Mbit/s DS1 interface. 
      There are 28 VT on a STS-1 path.
      The SonetSublink class has the following measurement families:
      * SONET low path
      * Far End SONET low path
      * DS1
      * Far End DS1 */
/* The subport number for the SONET sublink. */
/* This attribute shows the SONET sublink klm number. */
/* This attribute shows the administrative state of the SONET sublink interface. */
/* This attribute shows the operational state of the SONET sublink interface. */
/* This attribute presents the number of bits/second transported by a SONET sublink. */
/* This attribute shows the time when the SONET sublink interface entered its operational state. */
/* This attribute is used to lock or unlock the sublink.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SONET lowpath.
        The default setting is 'disabled'. */
/* This attribute is for activation or deactivation of alarm when Alarm Indication Signal (AIS-V) is received.
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Remote Defect Indication (RDI-V) is received.
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm when Payload Mismatch (LP-PLM) has occurred.
         The default setting is 'on'. */
/* This attribute is used to specify the insertion of a Remote Defect Indication - SONET Virtual Tributary (RDI-V) on the upstream interface.
        The default setting is 'autoPlm'. */
/* This attribute is used for setting the framing type
        Note: The sublink has to be locked before configuring.
        The default setting is 'esf'. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for test purpose and the sublink has to be locked before changing this attribute.
        The default setting is 'off'. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for the SONET lowpath.
       The default setting is 'disabled'. */
/* This attribute indicates whether a DS1 related alarm should be generated.
        The default setting is 'on'. */
/* Shows SONET low path Background Block Errors (BBE).
        Family=SONET low path. */
/* Shows SONET low path Errored Seconds (ES).
        Family=SONET low path. */
/* Shows SONET low path Severely Errored Seconds (SES).
        Family=SONET low path. */
/* Shows SONET low path UnAvailable Time (UAT).
        Family=SONET low path. */
/* Shows Far End SONET low path Background Block Errors (BBE).
        Family=Far End SONET low path. */
/* Shows Far End SONET low path Errored Seconds (ES).
        Family=Far End SONET low path. */
/* Shows Far End SONET low path Severely Errored Seconds (SES).
        Family=Far End SONET low path. */
/* Shows Far End SONET low path UnAvailable Time (UAT).
        Family=Far End SONET low path. */
/* Shows DS1 Near End Errored Seconds (ES).
        Family=DS1. */
/* Shows DS1 Near End Severely Errored Seconds (SES).
        Family=DS1. */
/* Shows DS1 Near End Severely Errored Framing Seconds (SEFS).
        Family=DS1. */
/* Shows DS1 Near End Unavailable Seconds (UAS).
        Family=DS1. */
/* Shows DS1 Near End Controlled Slip Seconds (CSS).
        Family=DS1. */
/* Shows DS1 Near End Bursty Errored Seconds (BES).
        Family=DS1. */
/* Shows DS1 Near End Path Coding Violations (PCV).
        Family=DS1. */
/* Shows Far End DS1 Errored Seconds (ES).
        Family=Far End DS1. */
/* Shows Far End DS1 Severely Errored Seconds (SES).
        Family=Far End DS1. */
/* Shows Far End DS1 Severely Errored Framing Seconds (SEFS).
        Family=Far End DS1. */
/* Shows Far End Ds1 Unavailable Seconds (UAS).
        Family=Far End DS1. */
/* Shows Far End DS1 Controlled Slip Seconds (CSS).
        Family=Far End DS1. */
/* Shows Far End DS1 Bursty Errored Seconds (BES).
        Family=Far End DS1. */
/* Shows Far End DS1 Path Coding Violations (PCV).
        Family=Far End DS1. */
/* This class defines the 1.5 Mbit/s T1 interface for the MSP-16E1T1 blade. 
      Note: To be able to configure line type and loopback type, 
      the interface has to be locked.
      The T1Interface class has the following measurement families:
      * Near end T1
      * Far end T1 */
/* A physical interface on the front of the blade. There are 16 physical T1 interfaces (ports). */
/* This attribute shows the administrative state of a T1 interface. */
/* This attribute shows the operational state of a T1 interface. */
/* This attribute presents the number of bits/second transported by a T1 interface. */
/* This attribute shows the time when a T1 interface entered its operational state. */
/* This attribute shows the loopback state for a T1 interface. */
/* This attribute shows the line state for a T1 interface. */
/* This attribute is used to lock or unlock a T1 interface.
        NOTE: The attribute ifAdminStatus shows the same value as lockline is set to. */
/* This attribute is an alias name for the T1 interface as specified by a network manager. 
        It is used to identify interfaces by a text name, an option to assign a descriptive name to an interface. */
/* This attribute indicates whether linkUp or linkDown traps should be generated for 
        the T1 intferface.
        The default setting is 'disabled'. */
/* This attribute defines loopback configuration.
        Note: Loopback is only used for test purpose and the link has 
        to be locked before changing this attribute. 
        The default setting is 'off'. */
/* This attribute is for configuring the framing type for the T1 interface. 
        Note: The T1 interface has to be locked before setting linetype.
        The default setting is 'esf'. */
/* This attribute is for activation or deactivation of alarm 
         when Alarm Indication Signal (AIS) is received. 
         The default setting is 'on'. */
/* This attribute is for activation or deactivation of alarm 
         when Remote Alarm Indication (RAI) is received. 
         The default setting is 'on'. */
/* This attribute is used to configure the clock source. The chosen source 
        will be used as transmit clock source for the T1 interface.
        The default setting is 'netsync'. */
/* This attribute is used for configuration of the line length. The adjusting 
        of the transmitted signal strength to adjust for damping due to the 
        properties of the actual cable (for example, distance to the next receiving equipment).
        The default setting is 0.6 dB (0-40 m/0-133 feet). */
/* Shows T1 Near End Errored Seconds (ES).
        Family=Near end T1. */
/* Shows T1 Near End Severely Errored Seconds (SES).
        Family=Near end T1. */
/* Shows T1 Near End Severely Errored Framing Seconds (SEFS).
        Family=Near end T1. */
/* Shows T1 Near End Unavailable Seconds (UAS).
        Family=Near end T1. */
/* Shows T1 Near End Controlled Slip Seconds (CSS).
        Family=Near end T1. */
/* Shows T1 Near End Bursty Errored Seconds (BES).
        Family=Near end T1. */
/* Shows T1 Near End Coding Violations (CV).
        Family=Near end T1. */
/* Shows Far End T1 Errored Seconds (ES).
        Family=Far end T1. */
/* Shows Far End T1 Severely Errored Seconds (SES).
        Family=Far end T1. */
/* Shows Far End T1 Severely Errored Framing Seconds (SEFS).
        Family=Far end T1. */
/* Shows Far End T1 Unavailable Seconds (UAS).
        Family=Far end T1. */
/* Shows Far End T1 Controlled Slip Seconds (CSS).
        Family=Far end T1. */
/* Shows Far End T1 Bursty Errored Seconds (BES).
        Family=Far end T1. */
/* Shows Far End T1 Coding Violations (CV).
        Family=Far end T1. */
/* System common parameters and blade pairs. */
/* SCTP global parameters */
/* The initial value that Retransmission Time-out will take.
        Measured in milliseconds. */
/* The minimum value that Retransmission Time-out will take.
        Measured in milliseconds. */
/* The maximum value that Retransmission Time-out will take.
        Measured in milliseconds. */
/* Alpha shift factor. Used to compute the Smoothed Round Trip
        Time (SRTT) for a particular destination address. */
/* Beta shift factor. Used to compute the Round Trip
         Time Variation(RTTV) for a particular destination address. */
/* The maximum number of consecutive retransmissions to a remote peer. */
/* The maximum number of retransmissions allowed for both INIT and
        COOKIE-ECHO chunks. */
/* The maximum number of retransmissions during the shutdown
        of an association. */
/* The maximum number of bytes a user is allowed to pass as
        non-fragmented user data in an SCTP_SEND_req messages. */
/* Valid cookie life in the 4-way start-up handshake procedure.
        Shall be higher than the RTT in the network, but as small as
        possible due to security reasons. This parameter sets up the
        life span of the state cookie sent in the INIT_ACK chunk.
        Measured in milliseconds. */
/* The ARP parameters. */
/* The number of consecutive ARP requests sent without receiving an ARP 
       reply before the next hop peer is considered to be down and a 
       nexthopAlarm is issued. It is also used as the number of consecutive 
       received ARP replies after which the next hop peer will be considered 
       to be up and the nexthopAlarm is cleared.
       Note: The alarm is issued only when the first next hop peer is 
       considered to be down. The alarm is cleared only when the last 
       next hop peer is considered to be up. */
/* The time between sending ARP requests when the next hop peer is up. 
        The value indicates the number of 100 ms intervals between the requests. */
/* The time between sending ARP requests when the next hop peer is down. 
       TThe value indicates the number of 100 ms intervals between the requests. */
/* The time between sending ARP requests when a new IP interface has been
        configured. It is also used as the time between sending ARP requests 
        to detect when the address collision state has ceased and the
        addressCollisionAlarm is cleared. */
/* The number of consecutive ARP requests sent without receiving an ARP 
        reply before an address collision is ruled out at the activation of 
        an IP interface. It is also used as the number of consecutive sent 
        ARP Requests without receiving an ARP reply before the address 
        collision state is considered to no longer exist and the 
        addressCollisionAlarm is cleared. */
/* A pair of blades for 1+1 CP redundancy. */
/* The identity of the blade pair. E.g. "0-8,0-9" */
/* A sequence of references to Blade object instances. */
/* The physical tone.
      A physical tone is a cadence that is repeated a number of times. A cadence consists
      of up to five cadence components each specified with frequency, level, modulation, 
      iteration, pulse and pause duration. At startup the system creates 16 default tones, 
      which can be modified and deleted in the same way as the tones you have configured yourself.
      The maximum number of physical tones are 256, including the default tones. */
/* A unique name string for the tone. */
/* Whether the tone replaces or is mixed with the voice. */
/* The modulation type of the first component. */
/* The number of times the first component will be repeated. */
/* The duration (in milliseconds) of the pulse of the first component. */
/* The duration (in milliseconds) of the pause of the first component. */
/* The modulation ratio (%) of frequencyA and frequencyB of the first component. This parameter is NOT used if the modulationComp1 is set to addition. */
/* The value of frequencyA (Hz) in the first component. */
/* The value of the attenuation level (dBm0) for frequencyA in the first component. */
/* The value of frequencyB (Hz) in the first component. */
/* The value of the attenuation level (dBm0) for frequencyB in the first component. */
/* The modulation type of the second component. */
/* The number of times the second component will be repeated. */
/* The duration (in milliseconds) of the pulse of the second component. */
/* The duration (in milliseconds) of the pause of the second component. */
/* The modulation ratio (%) of frequencyA and frequencyB of the second component. This parameter is NOT used if the modulationComp2 is set to addition. */
/* The value of frequencyA (Hz) in the second component. */
/* The value of the attenuation level (dBm0) for frequencyA in the second component. */
/* The value of frequencyB (Hz) in the second component. */
/* The value of the attenuation level (dBm0) for frequencyB in the second component. */
/* The modulation type of the third component. */
/* The number of times the third component shall be repeated. */
/* The duration (in miliseconds) of the pulse of the third component. */
/* The duration (in miliseconds) of the pause of the third component. */
/* The modulation ratio (%) of frequencyA and frequencyB of the third component. This parameter is NOT used if the modulationComp3 is set to addition. */
/* The value of frequencyA (Hz) in the third component. */
/* The value of the attenuation level (dBm0) for frequencyA in the third component. */
/* The value of frequencyB (Hz) in the third component. */
/* The value of the attenuation level (dBm0) for frequencyB in the third component. */
/* The modulation type of the fourth component. */
/* The number of times the fourth component shall be repeated. */
/* The duration (in milliseconds) of the pulse of the fourth component. */
/* The duration (in milliseconds) of the pause of the fourth component. */
/* The modulation ratio (%) of frequencyA and frequencyB of the fourth component. This parameter is NOT used if the modulationComp4 is set to addition. */
/* The value of frequencyA (Hz) in the fourth component. */
/* The value of the attenuation level (dBm0) for frequencyA in the fourth component. */
/* The value of frequencyB (Hz) in the fourth component. */
/* The value of the attenuation level (dBm0) for frequencyB in the fourth component. */
/* The modulation type of the fifth component. */
/* The number of times the fifth component shall be repeated. */
/* The duration (in milliseconds) of the pulse of the fifth component. */
/* The duration (in milliseconds) of the pause of the fifth component. */
/* The modulation ratio (%) of frequencyA and frequencyB of the fifth component. This parameter is NOT used if the modulationComp5 is set to addition. */
/* The value of frequencyA (Hz) in the fifth component. */
/* The value of the attenuation level (dBm0) for frequencyA in the fifth component. */
/* The value of frequencyB (Hz) in the fifth component. */
/* The value of the attenuation level (dBm0) for frequencyB in the fifth component. */
/* The traffic supervision parameters. */
/* The threshold for the number of received malicious packets during a 
      20-second period. When this value is reached or exceeded, a 
      maliciousTrafficAlarm is issued.

      Note: Setting this attribute to 0 disables the supervision of
            received malicious packets.
      
      The malicious packets will be discarded and logged irrespectively of 
      the threshold value. */
/* The hysteresis for malicious packets threshold. The
       maliciousTrafficAlarm is cleared when the number of 
       received packets during a 20-second period is less than (Malicious 
       packets threshold minus Malicious threshold hysteresis). */
/* The threshold for excessive traffic, that is, packets discarded due to 
       policing, specified as the average bandwidth, in kbit/s, during a 
       20-second period. When this value is reached or exceeded, an 
       excessiveTrafficAlarm is issued.
       
       Note: Setting this attribute to 0 disables the supervision of received excessive 
             packet.

       The excessive traffic will be discarded and logged irrespectively of 
       the threshold value. */
/* The hysteresis for excessive traffic threshold in kbit/s during a 
        20-second period. The excessiveTrafficAlarm is cleared when the 
        average packets bandwidth falls below (Excessive traffic threshold 
        minus Excessive traffic hysteresis). */
/* Media stop means that no media (RTP or RTCP) has been received in any 
       stream on a termination for the configured period of time. 
       When media stop is detected the MGW notifies the GC of the inactive 
       media streams via H.248.
       * Off: no media supervision
       * 1 m, 2 m, 5 m, 10 m, 30 m, 1 h, 6 h, 12 h, 24 h: no packets have
         been received in 1 minute, 2 minutes, -, 24 hours. 

       Not */
/* e: The media stop supervision time specifies the interval 
             between two consecutive checks of an inactive media 
             stream in the MGW. That is, when the timer expires, the 
             MGW checks all its media streams to see whether any 
             streams are inactive. An individual stream that has been 
             inactive during the period between two consecutive media 
             stop checks will be reported as an inactive media stream 
             to the GC. This means that the actual time period during 
             which the stream has been inactive when the GC is 
             notified may be up to twice as long as the time specified by 
             the Media stop supervision time. */
/* Activates or deactivates the logging of malicious traffic.
     * On: Logging
     * Off: No logging. */
/* This attribute is used to activate or deactivate the logging of 
     excessive traffic.
     * On: Logging
     * Off: No logging. */
/* Represents the IP Network that the MGW is interfacing. */
/* Static route for the H.248 signaling traffic towards a controller. */
/* The subnet address of the remote network. */
/* The mask length of the subnet. */
/* The bladesystems subnet segment indicated by 
        which edge router used as next hop. */
/* The Virtual Router.
                   The virtual router contains all the IP interfaces, next hops,
                   and routes that have been defined for media transport. */
/* The IP interface.
                        The IP interface is an entity terminating the IP layer.
                        The IP interface has an associated IP address.
                        In order to delete a IP interface the administrative state
                        has to be locked. */
/* The IP address of the IP interface. */
/* The Ethernet interface for this IP interface. */
/* The VLAN identity that the IP interface
                                is related to. */
/* The subnet mask length. */
/* The subnet segment mask length. */
/* Deprecated attribute.
                                Kept for backwards compatibility. */
/* Deprecated attribute.
                                Kept for backwards compatibility. */
/* The current administrative state.
                                Also used to set administrative state. */
/* The state of the IP interface.
                                Indicates if the IP interface is possible to use for traffic
                                (enabled) or not possible to use for traffic (disabled).
                                A change of the administrative state does not change
                                the operational state. The operational state can be Enabled while
                                the administrative state is Locked. */
/* The lowest allowed UDP port for media
                                To be used for dynamic connections
                                and SPCs on IP interfaces.
                                Exception: Leased line terminations use the range
                                1024 - 4095.
                                * The low UDP port number must be lower than the high UDP port number.
                                * There must be at least 4 ports available in the port range.
                                * The low UDP port number must be an even number. */
/* The highest allowed UDP port for media
                                To be used for dynamic connections
                                and SPCs on IP interfaces.
                                Exception: Leased line terminations use the range
                                1024 - 4095.
                                * The high UDP port number must be higher than the low UDP port number.
                                * There must be at least 4 ports available in the port range.
                                * The high UDP port number must be an odd number. */
/* The identity of the address group. 
                                The value zero means that the IP interface
                                is not included in an address group. */
/* The address must be in the correct address group
                                to be selected. 
                                The value true means that the IP interface
                                is only selected if it is in an address group. */
/* The number of received accepted packets.
                                Family=Media Statistics. */
/* The number of octets in received accepted packets.
                                The number of octets does not include
                                the Ethernet overhead.
                                Family=Media Statistics. */
/* The number of packets to be sent.
                                Some of these packets might be discarded
                                due to traffic management.
                                Family=Media Statistics. */
/* The number of octets in packets to be sent.
                                Some of these packets might later
                                be discarded due to traffic management.
                                Family=Media Statistics. */
/* The number of received malicious packets that were discarded. 
        The following types of IP packets are considered malicious
        and are counted per IP Interface:
        * packets sent on an unconfigured media stream (IP address and port)
        * packets that have a source address and/or port different from
        the address that has been configured for the media stream,
        if Media source filtering is active
        * packets with a transport protocol other than UDP
        Family=Media Statistics. */
/* The number of received packets that
                                have been discarded due to bandwidth policing.
                                Family=Media Statistics. */
/* The number of octets in received packets
        that have been discarded due to bandwidth policing.
        Family=Media Statistics. */
/* The number of received packets that were discarded for other reasons:
         * Packets received when stream mode is inactive or send only.
         * Packets that could not be transmitted due to stream mode set
         to inactive or receive only.
         * RTCP packets received when configured to be discarded.
         * Packets that were seen as late media.
         Family=Media Statistics. */
/* The number of outgoing packets that were
                                discarded due to no next hop MAC address.
                                Family=Media Statistics. */
/* The next hop for a route.
                        A next hop is a node via which IP traffic is routed.
                        It is needed when a IP source address and an IP destination
                        address are not on the same subnet.
                        In order to delete a next hop the administrative state
                        has to be locked. */
/* The IP address of the next hop. */
/* The current administrative state.
                        Also used to set administrative state. */
/* The route table contains entries with subnets that we are interested in
sending packets to. If the subnet is beyond a router, there should be at
least one next hop is associated to the route.
When an IP interface is created, an interface route is created
implicitly, based on the IP address and subnet mask. There is no next hop
associated to an interface route. If the IP interface is deleted the
associated interface route is also deleted. */
/* The address prefix of the remote subnet address. */
/* The number of relevant bits
                                in the address prefix. */
/* The static routes are created manually.
                                The interface routes are created automatically
                                 when the IP interface is created. */
/* The Next Hop(s) for this Route. */
/* Media Gateway Application for voice and video connection control. */
/* Offset in the subnet segnent, from where MGW will
        start to allocate local addresses. */
/* Payload Profile */
/* Payload Type */
/* Packetization Time */
/* Payload Mapping */
/* Encoding name */
/* Payload Type */
/* A physical device on the signaling interface.

      Either signalingInterface, e1Interface or t1Interface must be set.

      Attribute admState must be set to 'locked' before a signaling device can 
      be deleted. */
/* The name of the device. */
/* Administrative state. */
/* Reference to an instance of the class E1 interface. */
/* Reference to an instance of the class Signaling interface. */
/* Reference to an instance of the class T1 interface. */
/* A TDM channel provisioned on the signaling device. */
/* The time slot for the signaling channel */
/* A collection of tone types to be configured for the MGW application. 
      A default tone profile is created by the system. */
/* The name of the tone profile. */
/* Objects for translating H.248 tone names to physical tones. */
/* The name of the tone. This attribute can be specified several times, 
        once for for each different toneid. */
/* Default tone timeout in 10 ms interval (1 = 10 ms, 2 = 20 ms ...). 
        The value 0 will cause the tone will be played until the GC gives 
        order to stop the tone. */
/* Reference to an instance of the class Physical Tone. */
/* A Virtual Signaling Gateway (SGW) Application Server (AS) 
      is responsible for termination and translating the signaling
      protocols on TDM signaling interfaces to IUA/DUA signaling
      transport over the IP network to a gateway controller. */
/* A string that identifies the signaling gateway. This string is also
        used to identify the application server. */
/* Indicates in which blade pair of the system the application server
        is going to reside. */
/* The operational state of the application server.

        down:
          The Application Server is unavailable. This state implies 
          that all related ASPs are in the ASP-DOWN state for this AS. 
          Initially, the AS will be in this state.

        active: 
          The Application Server is available and application traffic
          is active. This state implies that at least one ASP is in the up 
          state.

        inactive: 
          The Application Server is available but no application
          traffic is active (that is, one or more related ASPs are in the 
          noAssociation or inactive state, but none in the up state). 
          The recovery timer T(r) is not running or has expired.

        pending: 
          An active ASP has transitioned from active to inactive
          or down and it was the last remaining active ASP in the AS. 
          A recovery timer T(r) will be started, and all incoming SCN messages
          will be queued by the SG. If an ASP becomes active before T(r) 
          expires, the AS will change to the active state, and all the queued
          messages will be sent to the active ASP. */
/* The time in seconds during which the AS buffers switched circuit
        network (SCN) messages waits for an ASP to become active.
        If an ASP becomes active before the timer expires, the buffered
        messages are sent. If the timer expires the messages are discarded.
        -1 means indefinitely.
        The value 0 means that messages are discarded immediately. */
/* An Application Server Process (ASP) is responsible for the SCTP 
      transport of IUA/DUA signaling over the IP network to a gateway
      controller. A maximum of 2 ASPs with an SCTP association can be
      configured and one is active at a time. */
/* A unique name identifying the application server process (ASP). */
/* The administrative state of the application server process.

        unlocked: 
          The ASP is unlocked. Unlocking an ASP makes the Operational state 
          change to up, inactive or noAssociation depending on whether there is 
          application traffic active or not.

        locked: 
          The ASP is locked. Locking an ASP makes the Operational state change 
          to down and, consequently, the ASP can no longer be used. */
/* The number of received chunks that have been dropped due to buffer 
        overflow in the receiving buffer.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* Number of times a communication resume indication has been 
        sent to the user.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* Number of sent chunks that have been dropped due to buffer 
        overflow in the sending buffer.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* Number of times a communication stop indication has been 
        sent to the user.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* A string that identifies the Gateway Controller to which the
        ASP will connect. The name is optional and may be left empty. */
/* The first IP address of the remote Gateway Controller. */
/* The second IP address of the remote Gateway Controller, optionally
        used for SCTP multihoming. */
/* The interval in seconds used by SCTP to monitor that the communication
        with the Gateway Controller is alive.
        The recommended value is 60. */
/* The number of SCTP streams. Negotiated with the remote end.
        The value is not to be trusted when the SCTP association is down. */
/* Local SCTP IP address 1. 
        Must be set when used by MSAN. Else automatically assigned from the 
        H.248 IS subnet segment. */
/* Local SCTP IP address 2. 
        Must be set when used by MSAN. Else automatically assigned from the 
        H.248 IS subnet segment. */
/* Local SCTP port. The signaling gateway listens for incoming
        messages on this port number. Must be a unique port number. 
        The port must not be the same as for any of the H.248 control
        links terminating on the associated blade pair. */
/* The operational state of the application server process.

        down: 
          Application Server Process is down, yet the SCTP association is 
          available.

        up:
          The Application Server Process is up, consequently the SCTP
          association is available.

        noAssociation: 
          The ASP is available but the SCTP association is down, consequently 
          the Application Server Process is down.

        inactive: 
          The ASP is available but not y */
/* et activated. */
/* The number for streams to be negotiated for the SCTP association.
        The configured value may change after negotiation with the
        remote end. 
        The value is not to be trusted when the SCTP association is down.
        Recommended value is 20. */
/* The number of SCTP packets received with an invalid checksum.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter is restarted from zero.
        
        Family=SCTP statistics. */
/* The number of complete data chunks (user messages) received from
        the peers (retransmission included).
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of datagrams received with chunk type id >0.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of received SCTP packets.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of reassembled user messages, incremented when the 
        first data chunk of a fragmented message is received.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The remote SCTP port. */
/* The number of data chunks retransmitted to the peers.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* Whether the application server process will act as a client or 
        a server. */
/* The number of complete data chunks (user messages) sent to the peers
        (retransmission included).
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of datagrams sent with chunk type id >0.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of fragmented user messages, incremented when the 
        first data chunk of a fragmented message is sent.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of sent SCTP packets.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* A signaling interface that the virtual SGW is responsible for.
      It is terminating the ISDN,DPNSS or DASS2 signaling protocols 
      on timeslot 16 of an SDH E1 sublink.

      Either sdhSubLink or e1Interface must be set. */
/* A unique identifier of the signaling interface. */
/* Not used in the current version. For future development.
        The number of active data links in the signaling interface.
        Only applicable to DPNSS and DASS2. */
/* The administrative state of the signaling interface.

        unlocked: 
          The signaling interface is unlocked. The interface is in operation so 
          data traffic can run on it.

        locked: 
          The signaling interface is locked. When the interface is locked, no 
          data traffic can pass it. */
/* A string that identifies the signaling interface.
        The first character must be a letter (a..z) followed by any of: 
        a..z 
        0..9
        / (forward slash)
        _ (underscore).
        Uppercase letters may be entered but are converted to lower case 
        when the attribute is stored internally. The name is optional and
        may be left empty. Used for ISM purpose only */
/* A hexadecimal indicating which timeslots are used as signaling 
        interfaces.
        For the DUA signaling protocol, you specify a Bitmap channel, 
        indicating for which Timeslot links will be created. You can only 
        specify one Bitmap channel. 
        For the DPNSS protocol there is one bitmap for the real channels and 
        another for the virtual channels. The bitmap for virtual channels is a 
        copy of the bitmap for real channels, so you can only specify one 
        bitmap. 
        For the DASS2 there is just one bitmap for the channels.

        The hexadecimal format is represented with an octet string. For each 
        octet the least significant bit corresponds to the lowest channel.
        octet #0 represents channels 0 to 7
        octet #1 represents channel 8 to 15
        octet #2 represents channel 16 to 23
        octet #3 represents channel 24 to 31

        For example, if channels 0 and 16 are not used, the octet string looks 
        like:
        FFFEFFFE. 

        This gives us the bits: 1111 1111 1111 1110 1111 1111 1111 1110
        The first bit being the most significant bit and the last being the 
        least significant bit.

        Octet #0 is represented as FF which equals the bits: 1111 1111. 
        Signaling interfaces will be created on all channels 24-31.

        Octet #1 is represented as FE which equals the bits: 1111 1110. 
        Signaling interfaces will be created on all channels except the channel
        that corresponds to the least significant bit, which is channel 16.

        Octet #2 is represented as FF which equals the bits: 1111 1111. 
        Signaling interfaces will be created on all channels 8-15.

        Octet #3 is represented as FE which equals the bits: 1111 1110. 
        Signaling interfaces will be created on all channels except the 
        channel that corresponds to the least significant bit, which is 
        channel 0.

        Only applicable to DPNSS and DASS2.
        The bitmap has the same format as an ip-address. */
/* The state of the data link.
        Only applicable to ISDN. */
/* Reference to the E1 Interface object */
/* Reference to the T1 Interface object */
/* Reference to the SDH sublink. */
/* Reference to the SONET sublink. */
/* Not used in the current version. For future development.
        The number of failed data links in the signaling interface.
        Only applicable to DPNSS and DASS2. */
/* The maximum time, in seconds, with no frames being exchanged on the
        Q.921 level. The Q921 name for this timer is T203.
        The value range is 5-30 with recommended value 10 for ISDN 
        and 30-600 with recommended value 300 for DPNSS and DASS2. */
/* Number of incoming layer 3 messages. 
        Family=Signaling statistics. */
/* Number of outgoing layer 3 messages. 
        Family=Signaling statistics. */
/* The line type, either of public or private.
        Only applicable to DASS2. Recommended value: public */
/* Not used in the current version. For future development.
        The number of locked data links in the signaling interface.
        Only applicable to DPNSS and DASS2. */
/* The maximum delay, in milliseconds, in which the SGW must acknowledge a 
        frame. It must be less than the retransmission timer.
        Recommended value 200.
        Only applicable to ISDN. 
    The value must be a multiple of 100. */
/* The maximum number of frames that may be unacknowledged at any given time.
        Known as K for IUA.
        Recommended value 7.
        Only applicable to ISDN. */
/* The maximum number of retransmissions of a frame.
        Known as N200 for IUA and NL for DUA.
        The value range is 1-10 with recommended value 3 for ISDN
        and 16-128 with recommended value 64 for DPNSS and DASS2.
    The value must be a multiple of 100. */
/* Shows the Gateway Controller link status.
        Only applicable to ISDN. */
/* The type of signaling interface: ISDN, DPNSS or DASS2 */
/* The side of the signaling interface.
        One side of the signaling interface has to be defined as A or network
        and the other as B or user.
        Valid values for ISDN are network and user with recommended value 
        network.
        Valid values for DPNSS and DASS2 are A and B with recommended value A. */
/* The time, in milliseconds, after which a non-acknowledged frame is 
        retransmitted. If the maximum number of retransmission attempts has 
        been exceeded, the reestablishment procedure is initiated.
        Known as T200 for IUA and NT1 for DUA.
        The value-range is 1000-10000 with recommended value 3000 for ISDN
        and 100-10000 with recommended value 500 for DPN */
/* SS and DASS2. */
/* The maximum number of frames that can be buffered to be sent on the 
        signaling interface.
        Value range is 1-300 with recommended value 30 for ISDN 
        and 1-10 with recommended value 4 for DPNSS and DASS2. */
/* Virtual Media Gateway (VMG), abstraction within a Media Gateway 
      representing the TDM resources (see Physical Device) as seen through one
      H.248 termination (see H.248 link). The attached control link can either
      be of type H248SctpLink or H248UdpLink. */
/* The name of the virtual media gateway. This name is used as the 
        message identifier in all H.248 messages sent from a virtual media 
        gateway. */
/* The size of the adaptive jitter buffer (in milliseconds) 
        used by audio connections.

        Streaming 3G-324M connections use a static algorithm for audio.

        The adaptive jitter buffer size determines how much IP jitter can be 
        managed, a 200 ms jitter buffer can manage an IP jitter of 100 ms. 
        Indirectly the adaptive jitter buffer size also specifies the maximum 
        delay that is acceptable for audio.

        The adaptation mechanism always tries to minimize the actual delay 
        introduced by the buffer.

        The adaptive jitter buffer size must be at least be as big as the 
        longest payload packetization time (ptime) used in the network. 
        To this value should be added a margin of at least one frame time, 
        that is:

        10 ms for G.711
        20 ms for AMR
        30 ms for G.723. 

        For example: If G.711 with ptime 20 ms and G.723 with ptime 30 ms are 
        used in the network, the buffer size must at least have a size of 
        60 ms, since G.723 is the worst case (30 ms ptime + 30 ms frame time)

        A modification of this attribute does only affect new calls, not 
        established calls. */
/* The number of dynamic audio call establishment attempts.
        Family=MGW call counters. */
/* The number of failed dynamic audio call establishment attempts.
        Family=MGW call counters. */
/* The number of congested audio call attempts.
        Family=MGW call counters. */
/* Indicates whether the Detailed termination information package will be
        supported for all physical terminations in this virtual media gateway.
        The detailed termination information package provides additional 
        information in the standard H.248 protocol to the GC, for example, 
        device type, device state, and law conversion, etc. It is sent from 
        the virtual media gateway to the GC during audit. */
/* Specifies the standard to follow for echo cancellation; possible 
        standards are G.164, G.165 or G.168. A modification of this attribute 
        only affects new calls, not established calls. */
/* The maximum estimated audio jitter, in milliseconds, of the 
        IP network(s) interfaced by the Media Gateway. The value is used by 
        connection types using a static jitter buffer algorithm for audio. 
        Currently only streaming 3G-324M connections use a static algorithm 
        for audio.

        A modification of this attribute does only affect new calls, not 
        already calls. */
/* The maximum estimated data jitter, in milliseconds, of the IP 
        network(s) interfaced by the VMG. The value is used by connection 
        types using a static jitter buffer algorithm for data. */
/* A string to be used as a prefix for the IP ephemeral termination 
        identifier. The IP ephemeral termination is a termination that is 
        created by the system at the time of connection setup, as opposed to a
        physical termination that is configured by the operator. The ephemeral
        termination name is used to identify the ephemeral termination in a 
        virtual media gateway.

        This string is used as the first portion of a two-level ephemeral 
        termination naming scheme, used by the virtual media gateway.

        For example, if you assign the string rtpip1 to a virtual media 
        gateway, the ephemeral terminations in that virtual media gateway will
        look like rtpip1/0x0102030f. */
/* The operational state of a virtual media gateway.

        enabled:  The virtual media gateway has established communication 
                  with a GC and is functioning correctly.
        disabled: The virtual media gateway is unable to communicate with 
                  the GC. There can be a number of reasons, for example:
                  - The virtual media gateway is performing an 
                    initial start.
                  - There is no active H.248 control link.
                  - The virtual media gateway is trying to attach to a GC by
                     sending a H.248 ServiceChange message to the GC. It 
                     will remain in this state while waiting for a response 
                     from the GC. */
/* Profile supported by the VMG. 
        The VMG indicates to the VMG Controller the profile supported by 
        the VMG. If the VMG Controller does not support the profile, the 
        operational state remains 'down'. */
/* The string sent in the first service change command.
        This name overrides the system defined default value.
        This attribute is optional. */
/* Indicates whether the RTCP packets are forwarded or not in a transcoder-free
        mode. This field is only relevant if the VMG is configured for IP. */
/* Turn RTCP on or off. */
/* The source address filtering.
        addressAndPort means checking both the source IP address and UDP port.
        Address means checking only the source IP address.
        Off means no call filtering. */
/* Reference to an instance of the class Tone profile. */
/* The number of dynamic video call establishment attempts.
        Family=MGW call counters. */
/* The number of failed dynamic video call establishment attempts.
        Family=MGW call counters. */
/* The number of congested video call attempts.
        Family=MGW call counters. */
/* Turn RTCP network packet loss statistic sending to enabled or diasabled. */
/* Turn RTCP jitter buffer discard rate statistic sending to enabled or diasabled. */
/* Turn RTCP round trip delay statistic sending to enabled or diasabled. */
/* A TDM resource containing a number of channels for voice and video
      connections, E1 on an MSP-STM1 interface (SDH sublink) or T1 on an
      MSP-OC3 interface (SONET sublink) or an E1 or T1 interface on an 
      MSP-16E1T1. 

      Either sonetSubLink, sdhSubLink, e1Interface or t1Interface must be set.

      Attribute admState must be set to 'locked' before the device can be 
      deleted. */
/* The name of the device. */
/* The number of active resources.      
        Family=Processing load statistics. */
/* The administrative state. */
/* The default value for echo cancellation */
/* Used to specify default speech encoding value for the device.
        This field must be specified when the device is created. */
/* Reference to an instance of the class E1 Interface. */
/* Echo Window in kbit/s. */
/* The number of failed call setup attempts.
        Family=Processing load statistics. */
/* A list of the time slots that have been 
        permanently configured with a loopback. This field can only be 
        specified when the device is created. */
/* The operational state. */
/* Reference to an instance of the class SDH sublink. */
/* The number of call setup attempts.
        Family=Processing load statistics. */
/* Reference to an instance of the class SONET sublink. */
/* Reference to an instance of the class T1 Interface. */
/* This type describes the MG physical device type. */
/* Indicates whether a device supports V5.2 package. 
        The package is used to set and read Sa7 bit of a V5.2 interface via 
        H.248.

        enabled      The V5.2 package support is enabled.
        disabled     The V5.2 package support is disabled.

        Note: This attribute is ignored for provisioned TDM connections. */
/* A physical termination on physical device for Semipermanent 
      connections.

      24 (on SONET sublink) or 31 (on SDH sublink) terminations are created by
      the system when a physical device is created. */
/* The time slot number. The range is 1-24 for T1 terminations and 1-31 for 
        E1 terminations. */
/* The context id where the termination currently resides. */
/* Echo cancellation flag. */
/* A list of the H.248 events that are currently being monitored. */
/* Speech conversion flag. */
/* The time stamp set when the termination was added to a new context. */
/* A text string that identifies the H.248 tone id.
        An empty string indicates that no tone is being played. */
/* A test termination is a physical termination that is reserved and used 
      for TSS audio test calls. */
/* Time slot number. The range is 1-24 for T1 terminations and 1-31 for 
        E1 terminations. */
/* The codec to be used by this test termination. The controller 
        chooses a codec during the call setup, but if a specific codec is 
        specified here, it will override the one sent by the controller. This 
        makes it possible to force the call to use a specific codec. */
/* Comfort noise/Silence suppression. */
/* Packetization time (in milliseconds). */
/* Tone relay. */
/* Internal arrival jitter.
        Family=RTP/RTCP statistics. */
/* Packet propagation delay.    
        Family=RTP/RTCP statistics. */
/* The number of RTP octets received.
        Family=RTP/RTCP statistics. */
/* The number of RTP octets sent.
        Family=RTP/RTCP statistics. */
/* The number of RTP packets lost.
        Family=RTP/RTCP statistics. */
/* The number of RTP packets received.
        Family=RTP/RTCP statistics. */
/* The number of RTP packets sent.
        Family=RTP/RTCP statistics. */
/* Indicates whether the test termination is active in a call. Possible 
        values are active or idle */
/* The termination name, i.e the concatenation: DeviceName/Channel. */
/* A group of virtual IP terminations. */
/* Name of the virtual IP device. */
/* Administrative state. */
/* Reference to the IP interface. */
/* Echo Window in kbit/s. */
/* The terminations are created when the Virtual IP Device is created. 
      The device is considered 'virtual' because it has no resources 
      on its own. The terminations get resources when they are configured.

      Configuring a termination is a two-step procedure:

      1 Operators in Domains A and B agree on IP addresses and UDP port 
        numbers that should be used for the leased lines.

      2 Operators in each domain configure the termination with the remote
        IP address and UDP port number.

      Once the configuration is made, resources are allocated and become 
      readable. */
/* The name of the IP termination. */
/* The local UDP port. */
/* Packetization time (in milliseconds). */
/* The encoding and decoding standards for voice and data defined by the 
        Internet Assigned Number Authority (IANA). The payload type indicates 
        the codec used to compress and decompress speech or audio signals. 
        The possible payload types are:

        G.711 A-law
        G.711 u-law
        Clearchannel */
/* The identifier for payload used in the RTP header when Payload type is
        Clearchannel. */
/* The remote IP address. */
/* The remote UDP port. Because the port is an RTP 
        port, the port number must be even. */
/* The H.248 control link that is associated with the VMG.
      
      The control link must have admState set to 'locked' before it can be 
      deleted. */
/* A globally unique VMG name. */
/* IP address of the currently active GC. (vmgLinkRemoteAddress1 or
        vmgSecGcAddr1). */
/* The port number of the currently active GC. (vmgLinkRemotePort or
        vmgSecGcPort). */
/* The administrative state of a H.248 control link.
        
        unlocked: The link is unlocked. Unlocking a link makes the 
                  Operational state change to enabled unless there is a link
                  fault.
        locked:   The link is locked. Locking a link makes the Operational 
                  state change to disabled and, consequently, the link can 
                  no longer be used. No new connections can be established 
                  on the link. */
/* The blade pair where the H.248 control link is terminated.
        
        Reference to the blade pair.
        
        Attribute admState must be locked when changed. */
/* The number of received chunks that have been discarded due to buffer 
        overflow in the receiving buffer.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.

        Family=SCTP statistics. */
/* The number of times a communication resume indication has been 
        sent to the user.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.

        Family=SCTP statistics. */
/* The number of sent chunks that have been discarded due to buffer 
        overflow in the sending buffer.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of times a communication stop indication has been 
        sent to the user.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The domain name for the media gateway. It is not the same as
         the media gateway name. This attribute is mandatory when the 
         MsgId format is 'domain-name'. Otherwise it is ignored. */
/* The encoding of outgoing H.248 messages. H.248 messages are encoded to 
        either of:

        compact text (short token) format
        pretty text (long token) format. 
        
        Recommended value: compacttext */
/* The first IP address of the local SCTP end point. This address is 
        dynamically allocated from the IS subnet segment. */
/* The second IP address of the local SCTP end point. Two local IP
        addresses are used for multihoming. This address is dynamically 
        allocated from the IS subnet segment. */
/* The number of the port to which the Media Gateway listens for incoming messages.
        A VMG must use a unique port number.
        
        Recommended value: 2944 */
/* The maximum number of pending H.248 responses that will be accepted 
        from the GC. If the virtual media gateway receives more pending 
        responses than the configured value, the virtual media gateway will 
        assume that the transaction has failed. A value of MGC originated 
        pending limit received via H.248 from the GC overwrites the 
        configured value. 
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2 */
/* The maximum number of pending H.248 responses that will be sent by a 
        virtual media gateway. If the virtual media gateway exceeds the 
        pending limit, the virtual media gateway will send a transaction 
        response with an error code. A value of vmgSentPendingLimit received 
        via H.248 from the GC overwrites the configured value.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 3 */
/* The number of times a H.248 transaction may be retransmitted.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2 */
/* The maximum delay in milliseconds before the virtual media gateway 
        initiates a ServiceChange procedure towards the controller at 
        restart. The actual delay will be a random value between zero and the
        Maximum wait delay for a ServiceChange.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 1000 */
/* The address format on H.248 level.
        domain-address - The attribute vmgLinkLocalAddress1 or vmgSecGcAddr1
                         is used as H.248 MID.
        domain-name    - The attribute vmgDomainName is used as H.248 MID.
        device-name    - The attribute vmgName is used as H.248 MID. */
/* The time, in milliseconds, within which the virtual media gateway 
        will send a H.248 transaction response or a pending response for a 
        transaction request initiated by the GC. A value of 
        normalMGExecutionTime received via H.248 from the GC overwrites the 
        configured value.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2000 */
/* The operational state of the control link.
        
        enabled:  The link is up and running. H.248 messages can be sent and
                  received over the link.
        disabled: The link is down. No H.248 message can be sent or received
                  over the link. */
/* Sending of pseudo rejects according to H.248.11.

        Recommended value: disabled */
/* The number of SCTP packets received with an invalid checksum.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The umber of complete data chunks (user messages) received from
        the peers (retransmission included).
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* Theumber of datagrams received with chunk type id >0.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.

        Family=SCTP statistics. */
/* The number of received SCTP packets.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The number of reassembled user messages, incremented when the 
        first data chunk of a fragmented message is received.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The IP address of the controller to which the control link is connected.
        
        Attribute admState must be locked when changed. */
/* The port number for outgoing messages. Usually 2944 for text-encoded 
        messages,and 2945 for binary.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2944 */
/* The number of data chunks retransmitted to the peers.
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The interval in seconds used by SCTP to monitor that the communication 
        with the VMG Controller is alive.
        
        Recommended value: 5 */
/* The number of complete data chunks (user messages) sent to the peers
        (retransmission included).
        
        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.
        
        Family=SCTP statistics. */
/* The umber of datagrams sent with chunk type id >0.

        If the control link has been locked or the Operational state is 
        disabled, the counter is restarts from zero.

        Family=SCTP statistics. */
/* The number of fragmented user messages, incremented when the 
        first data chunk of a fragmented message is sent.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.

        Family=SCTP statistics. */
/* The number of sent SCTP packets.

        If the control link has been locked or the Operational state is 
        disabled, the counter restarts from zero.

        Family=SCTP statistics. */
/* The estimated maximum response time, in milliseconds, for 95% of the 
        outgoing H.248 requests. T95 is used for overload protection.

        Attribute admState must be locked when changed.

        Recommended value: 500 */
/* The number of milliseconds that a transaction response is stored without 
        an acknowledgement.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 16000 */
/* The H.248 control link that is associated with the VMG.
      
      The control link must have admState set to 'locked' before it can be 
      deleted. */
/* A globally unique VMG name. */
/* The IP address of the currently active GC. (vmgLinkRemoteAddress1 or
        vmgSecGcAddr1). */
/* The port number of the currently active GC. (vmgLinkRemotePort or
        vmgSecGcPort). */
/* The administrative state of an H.248 control link.
        
        unlocked: The link is unlocked. Unlocking a link makes the 
                  Operational state change to enabled unless there is a link
                  fault.
        locked:   The link is locked. Locking a link makes the Operational 
                  state change to disabled and, consequently, the link can 
                  no longer be used. No new connections can be established 
                  on the link. */
/* The blade pair where the H.248 control link is terminated.
        
        Reference to the blade pair.
        
        Attribute admState must be locked when changed. */
/* A value in 10 ms intervals specified by GC for the UDP inactivity timer.
        If not specified by the GC, this field is not defined, and the MGW 
        will use vmgLinkUdpInactTimer as the timeout. */
/* The domain name for the media gateway. It is not the same as
         the media gateway name. This attribute is mandatory when the 
         MsgId format is set to 'domain-name'. Otherwise it is ignored. */
/* The encoding of outgoing H.248 messages. H.248 messages are encoded to 
        either of:
        
        compact text (short token) format
        pretty text (long token) format. 
        
        Recommended value: compacttext */
/* Indicates whether GC has enabled UDP link monitoring. */
/* The first IP address of the local UDP end point. This address is 
        dynamically allocated from the IS subnet segment. */
/* The Media Gateway listens for incoming messages on this port number.
        A VMG must use an unique port number.
        
        Recommended value: 2944 */
/* The maximum number of pending H.248 responses that will be accepted 
        from the GC. If the virtual media gateway receives more pending 
        responses than the configured value, the virtual media gateway will 
        assume that the transaction has failed. A value of MGC originated 
        pending limit received via H.248 from the GC overrides the 
        configured value. 
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2 */
/* The maximum number of pending H.248 responses that will be sent by a 
        virtual media gateway. If the virtual media gateway exceeds the 
        pending limit, the virtual media gateway will send a transaction 
        response with an error code. A value of vmgSentPendingLimit received 
        via H.248 from the GC overwrites the configured value.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 3 */
/* The number of times a H.248 transaction may be retransmitted.

        Attribute admState must be locked when changed.
        
        Recommended value: 2 */
/* The maximum delay in milliseconds before the virtual media gateway 
        initiates a ServiceChange procedure towards the controller at 
        restart. The actual delay will be a random value between zero and the
        Maximum wait delay for SC.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 1000 */
/* The address format of the H.248 level.
        domain-address - The attribute localAddress1 is used as H.248 MID.
        domain-name    - The attribute domainName is used as H.248 MID.
        device-name    - The attribute name is used as H.248 MID. */
/* The time, in milliseconds, within which the virtual media gateway 
        will send an H.248 transaction response or a pending response for a 
        transaction request initiated by the GC. A value of 
        normalMGExecutionTime received via H.248 from the GC overwrites the 
        configured value.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2000 */
/* The operational state of the control link.
        
        enabled:  The link is up and running. H.248 messages can be sent and
                  received over the link.
        disabled: The link is down. No H.248 message can be sent or received
                  over the link. */
/* Recommended value: disabled */
/* The IP address of the controller to which the control link is connected.
        
        Attribute admState must be locked when changed. */
/* The port number for outgoing messages. Usually 2944 for text-encoded 
        messages, and 2945 for binary.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 2944 */
/* The estimated maximum response time, in milliseconds, for 95% of the 
        outgoing H.248 requests. T95 is used for overload protection.

        Attribute admState must be locked when changed.

        Recommended value: 500 */
/* The number of milliseconds that a transaction response is stored without 
        an acknowledgement.
        
        Attribute admState must be locked when changed.
        
        Recommended value: 16000 */
/* Default value in seconds for the UDP inactivity timer. 
        This is a default value which means that the value is used if the 
        value is not set by the GC.

        The UDP inactivity timer specifies how long the control link can 
        be idle with out receiving any H. */
/* 248 message from GC. 
        The timer is reset every time a H.248 message is received. 
        If the timer expires the virtual media gateway initiates recovery 
        actions and re-registration with the GC

        Attribute admState must be locked when changed. */
/* SPC provisioned from TeS with H.248 signaling.
      There are 3 types of SPCs supported:
      1 Physical to ephemeral termination; for example used to transport ISUP 
        signaling to TeS.
      2 Physical to physical termination.
      3 Physical to virtual IP termination; for inter-domain leased lines. */
/* The context id. */
/* Reference to the physical termination. */
/* Reference to the physical termination.
        Only valid in SPC type phy-phy. */
/* Connection type. */
/* Reference to the virtual IP termination.
        Only valid in SPC type phy-vip. */
/* An ephemeral termination that is created with the Signaled SPC, for example
      used to transport ISUP signaling to TeS.

      Read-only object containing the RTP/RTCP statistics for the SPC. */
/* The context id */
/* Internal arrival jitter.

        Family=RTP/RTCP statistics. */
/* Packet propagation delay.
        
        Family=RTP/RTCP statistics. */
/* The number of received RTP octets.

        Family=RTP/RTCP statistics. */
/* The number of sent RTP octets.

        Family=RTP/RTCP statistics. */
/* The number of lost RTP packets.

        Family=RTP/RTCP statistics. */
/* The number of received RTP packets.

        Family=RTP/RTCP statistics. */
/* The number of sent RTP packets.

        Family=RTP/RTCP statistics. */
/* An SPC between physical channel on SDH/SONET sublink and physical channel
      on signaling interface. For example, used to transport ISUP signaling
      to IMT/MGC. */
/* id */
/* Termination operative status. */
/* Reference to the signaling channel. */
/* Reference to the physical termination. */
/* Top object for function to monitor the quality of service on paths 
      through the IP network. The QoS metrics are based on RTP/RTCP 
      statistics. */
/* The Administrative state of the QoS Monitoring function defines 
         whether the monitoring should be activated or not.

         If set to 'locked' (0): No sorting into NetworkPathGroups will be 
         made and no statistics be retrieved. All existing NetworkPathGroups 
         are removed.

         If set to 'unlocked' (1): The TDM-IP connections set up after the 
         administrative state is changed to unlocked will be sorted into 
         NetworkPathGroups, according to the prefixes and/or default masks 
         defined by the operator. For the NetworkPathGroups, statistics will 
         be retrieved. */
/* The Default local IP address prefix mask length is used when sorting a 
         TDM-IP connection if none of the operator defined IP address prefixes 
         (IpAddressPrefix) matches the local IP address of that connection. 
         Then defaultLocalPrefixMaskLength specifies the number of bits that 
         is relevant in the local IP address. 
         
         The attribute defaultLocalPrefixMaskLength is by default set to length
         32 (which implies that the whole local IP address is taken into 
         account when sorting the connection).

         Note! When changing defaultLocalPrefixMaskLength, streams set up after 
         the change will be sorted according to the new value, but already  
         existing streams will not be affected. */
/* The Default remote IP address prefix mask length is used when sorting a
         TDM-IP connection if none of the operator defined IP address prefixes 
         (IpAddressPrefix) matches the remote IP address of that connection. 
         Then defaultRemotePrefixMaskLength specifies the number of bits that  
         is relevant in the remote IP address.
 
         The attribute defaultRemotePrefixMaskLength is by default set to 0 
         (which implies that the remote IP address is disregarded when sorting  
         the connection).

         Note! When changing defaultRemotePrefixMaskLength, streams set up after
         the change will be sorted according to the new value, but existing 
         streams will not be affected. */
/* When a connection is set up, the longest matching prefixes will  
      automatically be used when sorting the connection into the right  
      network path group. 
      If the operator defines a prefix that matches streams that already  
      exist, the prefix will only affect the sorting of the streams set up  
      after the prefix was created. It will not affect the already existing  
      streams.
      If none of the operator defined IP address prefixes matches the  
      IP address(es) specified for the connection being set up, the  
      Default local IP address prefix mask length (defaultLocalPrefixMaskLength)
      and/or the Default remote IP address prefix mask length 
      (defaultRemotePrefixMaskLength) will be used instead when sorting.
      
      Note! Some prefixes are not possible to create, namely prefixes matching
      loopback (127.0.0.0/8), broadcast (255.255.255.255/32), 
      multicast (224.0.0.0/4) or link local network (0.0.0.0/8) addresses. */
/* This attribute is used, together with attribute
        Prefix mask length (prefixMaskLength) to specify an IP address  
        prefix to be used when sorting the TDM-IP connections. The attribute   
        prefixMaskLength specifies how many bits of attribute prefixAddress    
        that are relevant. */
/* This attribute is used, together with attribute IP address prefix 
        (prefixAddress), to specify an IP address prefix to be used when 
        sorting the TDM-IP connections. The attribute prefixMaskLength
        specifies how many bits of attribute prefixAddress that are 
        relevant. */
/* The network is considered to be a collection of paths determined 
      by the local and remote IP addresses. 
      These paths will be grouped into network path groups by operator-defined 
      IP address prefixes (IpAddressPrefix) and/or default masks 
      (defaultLocalPrefixMaskLength and defaultRemotePrefixMaskLength).  
      A new NetworkPathGroup is dynamically created when a RTP media   
      connection with a new local and remote IP address prefix combination   
      is established. Connections established later on with the same IP  
      address prefix combination will be placed in the same group.
      Once a day the unused NetworkPathGroups are removed.(A 
      NetworkPathGroup is considered as unused when there has been no 
      connection part of that group during the last 24 hours).

      The class NetworkPathGroup, contains two measurement families:

          * Weighted moving average RTP/RTCP statistics
            The we */
/* ighted average is recalculated every 15 seconds by 
            subtracting the previously calculated Weighted Average (WA)
            from the Current Average Value (CAV), dividing the result by 
            6 and adding WA to it.
            NewWA = WA + (CAV - WA)/6
 
          * Accumulated RTP/RTCP statistics
            The counters in this family are accumulated since the 
            NetworkPathGroup was created.

      Note that counters for round-trip delay and remote side values require 
      that RTCP is active. */
/* Network path group number. */
/* This attribute, together with the attribute Local prefix mask length
        (localPrefixMaskLength), defines the local prefix for all media 
        streams included in the concerned NetworkPathGroup. The attribute 
        localPrefixMaskLength specifies how many bits of the attribute 
        localIpAddressPrefix that are relevant. */
/* This attribute, together with the attribute Local IP address prefix 
        (localIpAddressPrefix), defines the local prefix for all media streams 
        included in the NetworkPathGroup concerned.  
        The attribute localPrefixMaskLength specifies how many bits of the 
        attribute localIpAddressPrefix are relevant. */
/* This attribute, together with the attribute Remote prefix mask length
        (remotePrefixMaskLength), defines the remote prefix for all media   
        streams included in the NetworkPathGroup concerned. 
        The attribute remotePrefixMaskLength specifies how many bits of the 
        attribute remoteIpAddressPrefix are relevant. */
/* This attribute, together with the attribute Remote IP address prefix 
        (remoteIpAddressPrefix), defines the remote prefix for all media streams
        included in the NetworkPathGroup concerned.  
        The attribute remotePrefixMaskLength specifies how many bits of the 
        attribute remoteIpAddressPrefix are relevant. */
/* The ratio of lost RTP packets in the audio streams. This 
        value is expressed as ratio in percent.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The value of inter-arrival jitter, in milliseconds, 
        in the audio streams.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The round-trip delay, in milliseconds, based on RTCP reports of 
        the audio streams.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The ratio of lost RTP packets at the remote side of the audio streams. 
        This value is expressed as ratio in percent.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The value of inter-arrival jitter, in milliseconds, detected at the
        remote side of the audio streams. 
        Family=Weighted moving average RTP/RTCP statistics. */
/* The ratio of lost RTP packets in the video streams. This 
        value is expressed as ratio in percent.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The round-trip delay, in milliseconds, based on RTCP reports of 
        the video streams.
        Family=Weighted moving average RTP/RTCP statistics. */
/* The ratio, in percent, of lost RTP packets at the remote side of the 
        video streams. 
        Family=Weighted moving average RTP/RTCP statistics. */
/* The amount of received RTP packets for the audio streams. Lost packets 
        are not included.
        To get an average value, this counter can be divided by the counter 
        accumAudioNoOfReadings. The division will result in an average 
        per audio channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets that are lost in the audio streams.
        To get an average value, this counter can be divided by the counter 
        accumAudioNoOfReadings. The division will result in an average 
        per audio channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The value of inter-arrival jitter, in milliseconds, in the audio streams. 
        To get a statistic average value, this counter can be divided by the 
        counter accumAudioNoOfReadings.
        Family=Accumulated RTP/RTCP statistics. */
/* The round-trip delay, in milliseconds, based on RTCP reports of 
        the audio streams.
        To get a statistic average value, this counter can be divided by the 
        counter accumAudioNoOfRTCPReadings.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets received at the remote side of the audio 
        streams.
        To get an average value, this counter can be divided by the counter 
        accumAudioNoOfRTCPReadings. The division will result in an average 
        per audio channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets that are lost at the remote side of the 
        audio streams.
        To get an average value, this counter can be divided by the counter 
        accumAudioNoOfRTCPReadings. The division will result in an average 
        per audio channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The value of inter-arrival jitter, in milliseconds, detected at the remote
        side of the audio streams. 
        To get a statistic average value, this counter can be divided by the 
        counter accumAudioNoOfRTCPReadings.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of received RTP packets for the video streams. Lost packets 
        are not included.
        To get an average value, this counter can be divided by the counter 
        accumVideoNoOfReadings. The division will result in an average 
        per video channel and 15-second period.        
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets that are lost in the video streams.
        To get an average value, this counter can be divided by the counter 
        accumVideoNoOfReadings. The division will result in an average 
        per video channel and 15-second period.        
        Family=Accumulated RTP/RTCP statistics. */
/* The round-trip delay, in milliseconds, based on RTCP reports of the video 
        streams.
        To get a statistic average value, this counter can be divided by the 
        counter accumVideoNoOfRTCPReadings.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets received at the remote side of the video 
        streams.
        To get an average value, this counter can be divided by the counter 
        accumVideoNoOfRTCPReadings. The division will result in an average 
        per video channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The amount of RTP packets that are lost at the remote side of the 
        video streams.
        To get an average value, this counter can be divided by the counter 
        accumVideoNoOfRTCPReadings. The division will result in an average 
        per video channel and 15-second period.
        Family=Accumulated RTP/RTCP statistics. */
/* The number of accumulations done for the following audio counters: 
           * Received RTP packets 
           * Lost RTP packets
           * Jitter.
        Family=Accumulated RTP/RTCP statistics. */
/* The number of accumulations done for the following RTCP audio counters:
           * Round-trip delay
           * Remote side Received RTP packets
           * Remote side RTP packets lost
           * Remote side Jitter.
        Family=Accumulated RTP/RTCP statistics. */
/* The number of accumulations done for the following video counters: 
           * Received RTP packets
           * Lost RTP packets.
        Family=Accumulated RTP/RTCP statistics. */
/* The number of accumulations done for the following RTCP video counters:
           * Round-trip delay
           * Remote side Received RTP packets
           * Remote side RTP packets lost.
        Family=Accumulated RTP/RTCP statistics. */
/* The 3G-324M parameters. */
/* The attribute is used to enable or disable continous AMR transmission towards the 3G-324M terminal. The attribute affects channels configured for transcoder-free AMR operation. Continuous AMR transmission means that AMR 'No Data' frames will be inserted in the audio stream towards the 3G-324M terminal if the channel runs out of audio data, for example, due to loss of audio RTP packets in the IP network. The default value is 1 (enabled). */
/* The size (number of bytes) of the video buffer per channel towards the 3G-324M terminal. The buffer absorbs network jitter and video bit rate peaks sent by the remote IP terminal. Additional received video RTP packets are discarded when reaching the limit. */
/* The video buffer congestion threshold (number of bytes). Additional received video inter frames (P-frames) will be discarded when reaching the limit.
        The value must be lower or equal to the VideoBufferSize attribute. */
/* The attribute defines how to treat corrupt video data received from the 3G-324M terminal. Corrupt video data is here interpreted as data affected by bit errors in the radio network. The default value is 2. */
/* The attribute defines which action to take upon detection of lost video data from the 3G-324M terminal. The default value is 4. */
/* The default skew between audio and video (in milliseconds), That is how much later the video stream is compared with audio. The value will be indicated by the MGW towards the IP terminal using RTCP, but will only be used if the 3G-324M terminal does not signal the skew. */
/* The attribute is used to fine tune lip syncronization for interactive video calls towards the 3G-324M terminal. The value defines the delay (in milliseconds) to be applied to the audio stream. */
/* The attribute is used to fine tune lip syncronization for streaming video calls towards the 3G-324M terminal. The value defines the delay in milliseconds to be applied to the audio stream. */
/* The attribute defines if forced video data segmentation will be applied when sending video towards the 3G-324M terminal. The specified value defines the maximum number of GOBs/slices to be carried by an H.223 AL-SDU. Having only a few GOBs/slices per AL-SDU increases the robustness to bit errors in the radio network to the cost of transmission capacity.
        0: disabled.
        1-13: number of GOBs/slices per AL-SDU. */
/* The threshold when the video quality (as experienced by the end user using the 3G-324M terminal) is considered degraded due to low bit rate. The reason for the low bit rate can be packet loss in the IP network. The number of seconds, during which the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds.          
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the IP terminal), is considered degraded due to low bit rate. The reason for the low bit rate can be bit errors in the error prone radio network. The number of seconds, during the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds. 
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the 3G-324M terminal) is considered degraded due to low bit rate. The reason for the low bit rate can be packet loss in the IP network. The number of seconds, during which the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds.          
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the IP terminal), is considered degraded due to low bit rate. The reason for the low bit rate can be bit errors in the error-prone radio network. The number of seconds, during which */
/* the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds. 
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the 3G-324M terminal) is considered degraded due to low bit rate. The reason for the low bit rate can be packet loss in the IP network. The number of seconds, during which the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds.          
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the IP terminal), is considered degraded due to low bit rate. The reason for the low bit rate can be bit errors in the error-prone radio network. The number of seconds, during which the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds. 
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the 3G-324M terminal) is considered degraded due to low bit rate. The reason for the low bit rate can be packet loss in the IP network. The number of seconds, during which the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds.          
        The value represents the threshold in kilo bits per second. */
/* The threshold when the video quality (as experienced by the end user using the IP terminal), is considered degraded due to low bit rate. The reason for the low bit rate can be bit errors in the error-prone radio network. The number of seconds, during the call experiences a lower bit rate than the threshold, will be counted and referred to as degraded video quality seconds. 
        The value represents the threshold in kilo bits per second. */
/* The threshold when a call towards the 3G-324M terminal should be considered having degraded video quality. 
        The value defines the percentage of degraded video quality seconds measured over the whole duration of the video call. */
/* The threshold  when a call towards the IP terminal should be considered having degraded video quality. 
        The value defines the percentage of degraded video quality seconds measured over the whole duration of the video call. */
/* The initial delay (in milliseconds) to be applied before sending the first NSRP/WNSRP segment (H.245 message) towards the 3G-324M terminal. The delay is needed by some 3G-324M terminals to complete H.223 synchronization. */
/* Enables or disables Video Fast Update (VFU) generation towards the 3G-324M terminal. The default value is 1 (Enabled). */
/* The current number of active video calls (interactive + streaming). 
        Family=Video call statistics. */
/* The current number of active 3G-324M streaming calls. 
        Family=Video call statistics. */
/* The total number of successful video call setup requests. 
        Family=Video call statistics. */
/* The total number of rejected video call setup requests. 
        Family=Video call statistics. */
/* The total number of successful video calls using video codec H.263v1. 
        Family=Video call statistics. */
/* The total number of successful video calls using video codec H.263v2. 
        Family=Video call statistics. */
/* The total number of successful video calls using video codec H.264. 
        Family=Video call statistics. */
/* The total number of successful video calls using video codec MPEG-4. 
        Family=Video call statistics. */
/* The total number of video calls where the received video stream did not include sync markers. (This means that forced segmentation could not be applied towards the 3G-324M terminals).
        Family=Video quality statistics. */
/* The total number of video calls experiencing lost video data due to that the video buffer maximum limit was reached on the IP-side.
        Family=Video quality statistics. */
/* The total number of video calls experiencing lost video data due to that the video buffer congestion threshold limit was reached on the IP-side.
        Family=Video quality statistics. */
/* The total number of degraded video quality calls in the IP to 3G-324M direction, that is, calls experiencing a higher ratio of degraded video quality seconds than specified by the degraded video quality call threshold.
        Family=Video quality statistics. */
/* The total number of degraded video quality calls in the 3G-324M to IP direction, that is calls experiencing a higher ratio of degraded video quality seconds than specified by the degraded video quality call threshold.
        Family=Video quality statistics. */
/* The total number of degraded video quality seconds in the 3G-324M to IP direction.
        Family=Video quality statistics. */
/* The total number of degraded video quality seconds in the IP to 3G-324M direction.
        Family=Video quality statistics. */
type record Mgw
{
        record of record {
                XSD.Token id,
                IntfImageType imageType optional,
                IntfInterfaceType interfaceType optional,
                XSD.Token bladeType optional,
                IntfTxClockSource txClockSrc optional,
                IntfKlmNumberingScheme klmNumberingScheme optional,
                TimingOutletSrcType_85 timingOutletSrc optional,
                NetsyncTxClockSrcType_86 netsyncTxClockSrc optional,
                GwmCounter32 setupAttempts optional,
                GwmCounter32 failedAttempts optional,
                GwmGauge32 activeResources optional,
                GwmCounter32 ephTerminations optional,
                record {
                        GwmGauge32 cpuLoad optional,
                        GwmGauge32 memoryUsage optional,
                        GwmGauge32 memoryUtilization optional,
                        XSD.Token class optional,
                        XSD.Token opState optional,
                        XSD.Token admState optional
                } cp,
                record length(0 .. 16) of record {
                        PortType_87 port_,
                        IntfIfAdminStatus ifAdminStatus optional,
                        IntfIfOperStatus ifOperStatus optional,
                        IntfIfSpeed ifLinkRate optional,
                        IntfIfLastChanged ifLastChanged optional,
                        IntfE1LineType frameMode optional,
                        IntfLockLine lockLine optional,
                        IntfIfAlias userDefinedName optional,
                        IntfLinkUpDownTrap e1LinkUpDownTrapEnable optional,
                        IntfLoopback loopback optional,
                        IntfE1LineType lineType optional,
                        IntfAlarmActivation alarmActE1Ais optional,
                        IntfAlarmActivation alarmActE1Rdi optional,
                        IntfTxClockSource txClockSrc optional,
                        IntfE1ExcBerThreshold linkExcBerThr optional,
                        IntfE1DegBerThreshold linkDegBerThr optional,
                        IntfCounter64 e1StatsBBE optional,
                        IntfCounter64 e1StatsES optional,
                        IntfCounter64 e1StatsSES optional,
                        IntfCounter64 e1StatsUAT optional,
                        IntfCounter64 e1StatsFarEndBBE optional,
                        IntfCounter64 e1StatsFarEndES optional,
                        IntfCounter64 e1StatsFarEndSES optional,
                        IntfCounter64 e1StatsFarEndUAT optional,
                        IntfCounter64 e1StatsSLIP optional,
                        IntfCounter64 e1StatsLOF optional,
                        IntfCounter64 e1StatsAIS optional,
                        IntfCounter64 e1StatsRDI optional
                } e1Interface_list,
                record length(2 .. 2) of record {
                        PortType_88 port_,
                        IntfCounter64 ipStatsIfTxPacketsEF optional,
                        IntfCounter64 ipStatsIfTxPacketsIC optional,
                        IntfCounter64 ipStatsIfTxPacketsAF1 optional,
                        IntfCounter64 ipStatsIfTxPacketsAF2 optional,
                        IntfCounter64 ipStatsIfTxPacketsAF3 optional,
                        IntfCounter64 ipStatsIfTxPacketsAF4 optional,
                        IntfCounter64 ipStatsIfTxPacketsDF optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsEF optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsIC optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsAF1 optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsAF2 optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsAF3 optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsAF4 optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsDF optional,
                        IntfCounter64 ipStatsIfTxPacketsToCp optional,
                        IntfCounter64 ipStatsIfDiscardedPacketsToCp optional,
                        IntfCounter64 ethernetStatsTxFrames optional,
                        IntfCounter64 ethernetStatsTxOctets optional,
                        IntfCounter64 ethernetStatsRxFrames optional,
                        IntfCounter64 ethernetStatsRxOctets optional,
                        IntfCounter64 ethernetStatsBroadcastTx optional,
                        IntfCounter64 ethernetStatsBroadcastRx optional,
                        IntfCounter64 ethernetStatsRxDiscarded optional,
                        IntfCounter64 ethernetStatsTxDiscarded optional,
                        IntfCounter64 ethernetStatsRxErrors optional,
                        IntfCounter64 ethernetStatsUnknownProtos optional,
                        IntfCounter64 ethernetStatsRxDiscOther optional,
                        IntfCounter64 ethernetStatsRx64 optional,
                        IntfCounter64 ethernetStatsRx65To127 optional,
                        IntfCounter64 ethernetStatsRx128To255 optional,
                        IntfCounter64 ethernetStatsRx256To511 optional,
                        IntfCounter64 ethernetStatsRx512To1023 optional,
                        IntfCounter64 ethernetStatsRx1024ToMax optional,
                        IntfCounter64 ethernetStatsRxBandwidth optional,
                        IntfCounter64 ethernetStatsTxBandwidth optional
                } internalEthernetInterface_list,
                record of record {
                        ResourceType_98 resource,
                        GwmInteger32 currentLimit,
                        GwmInteger32 currentUsage optional,
                        LicenseKeyType_99 licenseKey optional,
                        GwmInteger32 maxLimit optional,
                        GwmInteger32 step optional
                } license_list,
                record {
                        IntfIfAdminStatus ifAdminStatus optional,
                        IntfIfOperStatus ifOperStatus optional,
                        IntfIfSpeed ifLinkRate optional,
                        IntfIfLastChanged ifLastChanged optional,
                        IntfLockLine lockLine optional,
                        IntfIfAlias linkUserDefinedName optional,
                        IntfLinkUpDownTrap sdhLinkUpDownTrapEnable optional,
                        IntfLoopback loopback optional,
                        IntfAlarmActivation alarmActMsAis optional,
                        IntfAlarmActivation alarmActMsRdi optional,
                        IntfLinkRdiInsertion insActMsRdi optional,
                        IntfReiInsertion insActMsRei optional,
                        IntfUasMode unAvailState optional,
                        IntfBerThreshold linkExcBerThr optional,
                        IntfBerThreshold linkDegBerThr optional,
                        IntfIfAlias pathUserDefinedName optional,
                        IntfLinkUpDownTrap pathLinkUpDownTrapEnable optional,
                        IntfAlarmActivation alarmActAu4Ais optional,
                        IntfAlarmActivation alarmActVc4Rdi optional,
                        IntfAlarmActivation alarmActVc4Plm optional,
                        IntfAlarmActivation alarmActVc4Tim optional,
                        IntfPathRdiInsertion insActVc4Rdi optional,
                        XSD.Token vc4TiIns optional,
                        XSD.Token vc4TiExp optional,
                        IntfBerThreshold pathExcBerThr optional,
                        IntfBerThreshold pathDegBerThr optional,
                        IntfCounter64 sdhStatsRsBBE optional,
                        IntfCounter64 sdhStatsRsES optional,
                        IntfCounter64 sdhStatsRsSES optional,
                        IntfCounter64 sdhStatsRsUAT optional,
                        IntfCounter64 sdhStatsMsBBE optional,
                        IntfCounter64 sdhStatsMsES optional,
                        IntfCounter64 sdhStatsMsSES optional,
                        IntfCounter64 sdhStatsMsUAT optional,
                        IntfCounter64 sdhStatsFarEndMsBBE optional,
                        IntfCounter64 sdhStatsFarEndMsES optional,
                        IntfCounter64 sdhStatsFarEndMsSES optional,
                        IntfCounter64 sdhStatsFarEndMsUAT optional,
                        IntfCounter64 sdhPathStatsBBE optional,
                        IntfCounter64 sdhPathStatsES optional,
                        IntfCounter64 sdhPathStatsSES optional,
                        IntfCounter64 sdhPathStatsUAT optional,
                        IntfCounter64 sdhPathStatsFarEndBBE optional,
                        IntfCounter64 sdhPathStatsFarEndES optional,
                        IntfCounter64 sdhPathStatsFarEndSES optional,
                        IntfCounter64 sdhPathStatsFarEndUAT optional,
                        record length(63 .. 63) of record {
                                SubportType_89 subport,
                                IntfKlmNumber klmNumbering optional,
                                IntfIfAdminStatus ifAdminStatus optional,
                                IntfIfOperStatus ifOperStatus optional,
                                IntfIfSpeed ifLinkRate optional,
                                IntfIfLastChanged ifLastChanged optional,
                                IntfLockLine lockLine optional,
                                IntfIfAlias userDefinedName optional,
                                IntfLinkUpDownTrap lowpathLinkUpDownTrapEnable optional,
                                IntfAlarmActivation alarmActTu12Ais optional,
                                IntfAlarmActivation alarmActVc12Rdi optional,
                                IntfAlarmActivation alarmActVc12Plm optional,
                                IntfLowPathRdiInsertion insActVc12Rdi optional,
                                IntfLoopback loopback optional,
                                IntfE1LineType lineType optional,
                                IntfLinkUpDownTrap e1LinkUpDownTrapEnable optional,
                                IntfAlarmActivation alarmActE1Ais optional,
                                IntfAlarmActivation alarmActE1Rdi optional,
                                IntfCounter64 sdhLowPathStatsBBE optional,
                                IntfCounter64 sdhLowPathStatsES optional,
                                IntfCounter64 sdhLowPathStatsSES optional,
                                IntfCounter64 sdhLowPathStatsUAT optional,
                                IntfCounter64 sdhLowPathStatsFarEndBBE optional,
                                IntfCounter64 sdhLowPathStatsFarEndES optional,
                                IntfCounter64 sdhLowPathStatsFarEndSES optional,
                                IntfCounter64 sdhLowPathStatsFarEndUAT optional,
                                IntfCounter64 sdhLowPathStatsNJE optional,
                                IntfCounter64 sdhLowPathStatsPJE optional,
                                IntfCounter64 sdhLowPathStatsESE optional,
                                IntfCounter64 sdhLowPathStatsTU12AIS optional,
                                IntfCounter64 sdhLowPathStatsTU12LOP optional,
                                IntfCounter64 sdhLowPathStatsVC12PLM optional,
                                IntfCounter64 sdhLowPathStatsVC12RDI optional,
                                IntfCounter64 e1StatsBBE optional,
                                IntfCounter64 e1StatsES optional,
                                IntfCounter64 e1StatsSES optional,
                                IntfCounter64 e1StatsUAT optional,
                                IntfCounter64 e1StatsFarEndBBE optional,
                                IntfCounter64 e1StatsFarEndES optional,
                                IntfCounter64 e1StatsFarEndSES optional,
                                IntfCounter64 e1StatsFarEndUAT optional,
                                IntfCounter64 e1StatsSLIP optional,
                                IntfCounter64 e1StatsLOF optional,
                                IntfCounter64 e1StatsAIS optional,
                                IntfCounter64 e1StatsRDI optional
                        } sdhSubLink_list
                } sdhInterface,
                record {
                        IntfIfAdminStatus ifAdminStatus optional,
                        IntfIfOperStatus ifOperStatus optional,
                        IntfSignLinkLineType signalLinkLineType optional,
                        IntfIfSpeed ifLinkRate optional,
                        IntfIfLastChanged ifLastChanged optional,
                        IntfInterfaceType signalingOpMode optional,
                        IntfLockLine lockLine optional,
                        IntfIfAlias userDefinedName optional,
                        IntfLoopback loopback optional
                } signalingInterface,
                record {
                        IntfIfAdminStatus ifAdminStatus optional,
                        IntfIfOperStatus ifOperStatus optional,
                        IntfIfSpeed ifLinkRate optional,
                        IntfIfLastChanged ifLastChanged optional,
                        IntfLockLine lockLine optional,
                        IntfIfAlias userDefinedName optional,
                        IntfLoopback loopback optional,
                        IntfLinkUpDownTrap linkUpDownTrapEnable optional,
                        IntfAlarmActivation alarmActAisL optional,
                        IntfAlarmActivation alarmActRdiL optional,
                        IntfLinkRdiInsertion insActRdiL optional,
                        IntfReiInsertion insActReiL optional,
                        IntfUasMode unAvailState optional,
                        IntfBerThreshold excBerThr optional,
                        IntfBerThreshold degBerThr optional,
                        IntfCounter64 sdhStatsRsBBE optional,
                        IntfCounter64 sdhStatsRsES optional,
                        IntfCounter64 sdhStatsRsSES optional,
                        IntfCounter64 sdhStatsRsUAT optional,
                        IntfCounter64 sdhStatsMsBBE optional,
                        IntfCounter64 sdhStatsMsES optional,
                        IntfCounter64 sdhStatsMsSES optional,
                        IntfCounter64 sdhStatsMsUAT optional,
                        IntfCounter64 sdhStatsFarEndMsBBE optional,
                        IntfCounter64 sdhStatsFarEndMsES optional,
                        IntfCounter64 sdhStatsFarEndMsSES optional,
                        IntfCounter64 sdhStatsFarEndMsUAT optional,
                        record length(3 .. 3) of record {
                                PathType_90 path,
                                IntfIfAdminStatus ifAdminStatus optional,
                                IntfIfOperStatus ifOperStatus optional,
                                IntfIfSpeed ifLinkRate optional,
                                IntfIfLastChanged ifLastChanged optional,
                                IntfLockLine lockLine optional,
                                IntfIfAlias userDefinedName optional,
                                IntfLinkUpDownTrap linkUpDownTrapEnable optional,
                                IntfAlarmActivation alarmActAisP optional,
                                IntfAlarmActivation alarmActRdiP optional,
                                IntfAlarmActivation alarmActPlmP optional,
                                IntfAlarmActivation alarmActTimP optional,
                                IntfPathRdiInsertion insActRdiP optional,
                                IntfTraceLength tiLength optional,
                                XSD.Token tiInserted optional,
                                XSD.Token tiExpected optional,
                                IntfBerThreshold excBerThr optional,
                                IntfBerThreshold degBerThr optional,
                                IntfCounter64 sdhPathStatsBBE optional,
                                IntfCounter64 sdhPathStatsES optional,
                                IntfCounter64 sdhPathStatsSES optional,
                                IntfCounter64 sdhPathStatsUAT optional,
                                IntfCounter64 sdhPathStatsFarEndBBE optional,
                                IntfCounter64 sdhPathStatsFarEndES optional,
                                IntfCounter64 sdhPathStatsFarEndSES optional,
                                IntfCounter64 sdhPathStatsFarEndUAT optional,
                                record length(28 .. 28) of record {
                                        SubportType_91 subport,
                                        IntfKlmNumber klmNumbering optional,
                                        IntfIfAdminStatus ifAdminStatus optional,
                                        IntfIfOperStatus ifOperStatus optional,
                                        IntfIfSpeed ifLinkRate optional,
                                        IntfIfLastChanged ifLastChanged optional,
                                        IntfLockLine lockLine optional,
                                        IntfIfAlias userDefinedName optional,
                                        IntfLinkUpDownTrap lowpathLinkUpDownTrapEnable optional,
                                        IntfAlarmActivation alarmActAisV optional,
                                        IntfAlarmActivation alarmActRdiV optional,
                                        IntfAlarmActivation alarmActPlmV optional,
                                        IntfLowPathRdiInsertion insActRdiV optional,
                                        IntfDs1LineType lineType optional,
                                        IntfLoopback loopback optional,
                                        IntfLinkUpDownTrap ds1LinkUpDownTrapEnable optional,
                                        IntfDs1AlarmActivation stateChangeTrap optional,
                                        IntfCounter64 sdhLowPathStatsBBE optional,
                                        IntfCounter64 sdhLowPathStatsES optional,
                                        IntfCounter64 sdhLowPathStatsSES optional,
                                        IntfCounter64 sdhLowPathStatsUAT optional,
                                        IntfCounter64 sdhLowPathStatsFarEndBBE optional,
                                        IntfCounter64 sdhLowPathStatsFarEndES optional,
                                        IntfCounter64 sdhLowPathStatsFarEndSES optional,
                                        IntfCounter64 sdhLowPathStatsFarEndUAT optional,
                                        IntfCounter64 ds1StatsES optional,
                                        IntfCounter64 ds1StatsSES optional,
                                        IntfCounter64 ds1StatsSEFS optional,
                                        IntfCounter64 ds1StatsUAS optional,
                                        IntfCounter64 ds1StatsCSS optional,
                                        IntfCounter64 ds1StatsBES optional,
                                        IntfCounter64 ds1StatsPCV optional,
                                        IntfCounter64 ds1StatsFarEndES optional,
                                        IntfCounter64 ds1StatsFarEndSES optional,
                                        IntfCounter64 ds1StatsFarEndSEFS optional,
                                        IntfCounter64 ds1StatsFarEndUAS optional,
                                        IntfCounter64 ds1StatsFarEndCSS optional,
                                        IntfCounter64 ds1StatsFarEndBES optional,
                                        IntfCounter64 ds1StatsFarEndPCV optional
                                } sonetSubLink_list
                        } sonetPathLink_list
                } sonetInterface,
                record length(0 .. 16) of record {
                        PortType_93 port_,
                        IntfIfAdminStatus ifAdminStatus optional,
                        IntfIfOperStatus ifOperStatus optional,
                        IntfIfSpeed ifLinkRate optional,
                        IntfIfLastChanged ifLastChanged optional,
                        IntfLoopbackStatus t1LoopbackStatus optional,
                        IntfLineStatus t1LineStatus optional,
                        IntfLockLine lockLine optional,
                        IntfIfAlias userDefinedName optional,
                        IntfLinkUpDownTrap t1LinkUpDownTrapEnable optional,
                        IntfLoopback loopback optional,
                        IntfDs1LineType lineType optional,
                        IntfAlarmActivation alarmActT1Ais optional,
                        IntfAlarmActivation alarmActT1Rai optional,
                        IntfTxClockSource txClockSrc optional,
                        IntfT1CableLoss lineLength optional,
                        IntfCounter64 t1StatsES optional,
                        IntfCounter64 t1StatsSES optional,
                        IntfCounter64 t1StatsSEFS optional,
                        IntfCounter64 t1StatsUAS optional,
                        IntfCounter64 t1StatsCSS optional,
                        IntfCounter64 t1StatsBES optional,
                        IntfCounter64 t1StatsCV optional,
                        IntfCounter64 t1StatsFarEndES optional,
                        IntfCounter64 t1StatsFarEndSES optional,
                        IntfCounter64 t1StatsFarEndSEFS optional,
                        IntfCounter64 t1StatsFarEndUAS optional,
                        IntfCounter64 t1StatsFarEndCSS optional,
                        IntfCounter64 t1StatsFarEndBES optional,
                        IntfCounter64 t1StatsFarEndCV optional
                } t1Interface_list
        } blade_list,
        record {
                record {
                        RtoInitialType_63 rtoInitial optional,
                        RtoMinType_64 rtoMin optional,
                        RtoMaxType_65 rtoMax optional,
                        RtoAlphaType_66 rtoAlpha optional,
                        RtoBetaType_67 rtoBeta optional,
                        AssociationMaxRetransType_68 associationMaxRetrans optional,
                        MaxInitRetransType_69 maxInitRetrans optional,
                        MaxShutdownRetransType_70 maxShutdownRetrans optional,
                        MtuType_71 mtu optional,
                        ValCookieLifeType_72 valCookieLife optional
                } sctpParameters,
                record {
                        EventFilterType_73 eventFilter optional,
                        FastSupIntervalType_74 fastSupInterval optional,
                        DownSupIntervalType_75 downSupInterval optional,
                        AddrCollSupIntervalType_76 addrCollSupInterval optional,
                        AddrCollEventFilterlType_77 addrCollEventFilterl optional
                } arpParameters,
                record of record {
                        XSD.Token id,
                        BladesType_96 blades optional
                } bladePair_list,
                record length(0 .. 255) of record {
                        NameType_22 name,
                        DspcpToneMode mode,
                        DspcpToneModulation modulationComp1,
                        IterateComp1Type_23 iterateComp1,
                        PulseComp1Type_24 pulseComp1,
                        PauseComp1Type_25 pauseComp1,
                        ModulationRatioABComp1Type_26 modulationRatioABComp1 optional,
                        FrequencyAComp1Type_27 frequencyAComp1,
                        LevelAComp1Type_28 levelAComp1,
                        FrequencyBComp1Type_29 frequencyBComp1 optional,
                        LevelBComp1Type_30 levelBComp1 optional,
                        DspcpToneModulation modulationComp2 optional,
                        IterateComp2Type_31 iterateComp2 optional,
                        PulseComp2Type_32 pulseComp2 optional,
                        PauseComp2Type_33 pauseComp2 optional,
                        ModulationRatioABComp2Type_34 modulationRatioABComp2 optional,
                        FrequencyAComp2Type_35 frequencyAComp2 optional,
                        LevelAComp2Type_36 levelAComp2 optional,
                        FrequencyBComp2Type_37 frequencyBComp2 optional,
                        LevelBComp2Type_38 levelBComp2 optional,
                        DspcpToneModulation modulationComp3 optional,
                        IterateComp3Type_39 iterateComp3 optional,
                        PulseComp3Type_40 pulseComp3 optional,
                        PauseComp3Type_41 pauseComp3 optional,
                        ModulationRatioABComp3Type_42 modulationRatioABComp3 optional,
                        FrequencyAComp3Type_43 frequencyAComp3 optional,
                        LevelAComp3Type_44 levelAComp3 optional,
                        FrequencyBComp3Type_45 frequencyBComp3 optional,
                        LevelBComp3Type_46 levelBComp3 optional,
                        DspcpToneModulation modulationComp4 optional,
                        IterateComp4Type_47 iterateComp4 optional,
                        PulseComp4Type_48 pulseComp4 optional,
                        PauseComp4Type_49 pauseComp4 optional,
                        ModulationRatioABComp4Type_50 modulationRatioABComp4 optional,
                        FrequencyAComp4Type_51 frequencyAComp4 optional,
                        LevelAComp4Type_52 levelAComp4 optional,
                        FrequencyBComp4Type_53 frequencyBComp4 optional,
                        LevelBComp4Type_54 levelBComp4 optional,
                        DspcpToneModulation modulationComp5 optional,
                        IterateComp5Type_55 iterateComp5 optional,
                        PulseComp5Type_56 pulseComp5 optional,
                        PauseComp5Type_57 pauseComp5 optional,
                        ModulationRatioABComp5Type_58 modulationRatioABComp5 optional,
                        FrequencyAComp5Type_59 frequencyAComp5 optional,
                        LevelAComp5Type_60 levelAComp5 optional,
                        FrequencyBComp5Type_61 frequencyBComp5 optional,
                        LevelBComp5Type_62 levelBComp5 optional
                } physicalTone_list,
                record {
                        TrafficSupervisionMaliciousPacketsThrType_78 trafficSupervisionMaliciousPacketsThr optional,
                        TrafficSupervisionMaliciousPacketsHysType_79 trafficSupervisionMaliciousPacketsHys optional,
                        TrafficSupervisionExcessiveBandwidthThrType_80 trafficSupervisionExcessiveBandwidthThr optional,
                        TrafficSupervisionExcessiveBandwidthHysType_81 trafficSupervisionExcessiveBandwidthHys optional,
                        TrafficSupervisionMediaStopSupervisionType_82 trafficSupervisionMediaStopSupervision optional,
                        TrafficSupervisionMaliciousTrafficLogType_83 trafficSupervisionMaliciousTrafficLog optional,
                        TrafficSupervisionExcessiveTrafficLogType_84 trafficSupervisionExcessiveTrafficLog optional
                } trafficSupervision
        } system_,
        record {
                record of record {
                        InetAddressIPv4 subnetAddress,
                        MaskLengthType_183 maskLength,
                        SubnetSegmentType_184 subnetSegment
                } h248Route_list,
                record {
                        record of record {
                                InetAddressIPv4 address_,
                                ObjectRef ethernet,
                                NibsVlan vlanid optional,
                                NibsIpMaskLength subnetMask,
                                NibsIpMaskLength segmentMask,
                                XSD.Boolean payloadHost optional,
                                XSD.Boolean arp optional,
                                NibsAdministrativeState administrativeState optional,
                                NibsOperationalState operationalState optional,
                                NibsIpPort lowUDP optional,
                                NibsIpPort highUDP optional,
                                AddressGroupType_94 addressGroup optional,
                                XSD.Boolean addressGroupOnly optional,
                                NibsCounter64 ipStatsIpIfRxPackets optional,
                                NibsCounter64 ipStatsIpIfRxOctets optional,
                                NibsCounter64 ipStatsIpIfTxPackets optional,
                                NibsCounter64 ipStatsIpIfTxOctets optional,
                                NibsCounter64 ipStatsIpIfRxMaliciousPackets optional,
                                NibsCounter64 ipStatsIpIfRxExcessivePackets optional,
                                NibsCounter64 ipStatsIpIfRxExcessiveOctets optional,
                                NibsCounter64 ipStatsIpIfRxDiscardedPackets optional,
                                NibsCounter64 ipStatsIpIfDiscardedNoNexthop optional
                        } ipInterface_list,
                        record of record {
                                InetAddressIPv4 address_,
                                NibsAdministrativeState administrativeState optional
                        } nextHop_list,
                        record of record {
                                InetAddressIPv4 prefix,
                                NibsIpMaskLength mask,
                                NibsRouteType type_ optional,
                                NexthopType_95 nexthop
                        } route_list
                } virtualRouter
        } network,
        record {
                AddressOffsetType_100 addressOffset optional,
                record length(12 .. 12) of record {
                        PayloadTypeType_101 payloadType,
                        PacketizationTimeType_102 packetizationTime
                } payloadProfile_list,
                record length(1 .. infinity) of record {
                        EncodingNameType_103 encodingName,
                        ObjectRef payloadType
                } payloadMapping_list,
                record of record {
                        IdType_180 id,
                        GwmDevAdmState admState optional,
                        ObjectRef e1Interface optional,
                        ObjectRef signalingInterface optional,
                        ObjectRef t1Interface optional,
                        record length(24 .. 31) of record {
                                ChannelIdType_181 channelId
                        } signalingChannel_list
                } signalingDevice_list,
                record length(1 .. infinity) of record {
                        GwmAlphaNumericString_l35 name,
                        record of record {
                                H248IdType_104 h248Id,
                                DefaultTimeoutType_105 defaultTimeout optional,
                                ObjectRef tone
                        } h248Tone_list
                } toneProfile_list,
                record of record {
                        GwmAlphaNumericFsUs_beginAlpha_l64 sgName,
                        ObjectRef bladePair,
                        OpStateType_185 opState optional,
                        TrTimerType_186 trTimer optional,
                        record length(0 .. 2) of record {
                                GwmAlphaNumericFsUs_beginAlpha_l64 aspName,
                                GwmLinkAdmState admState optional,
                                GwmCounter32 congestionRcvdDropped optional,
                                GwmCounter32 congestionResume optional,
                                GwmCounter32 congestionSentDropped optional,
                                GwmCounter32 congestionStop optional,
                                GwmAlphaNumericFsUs_beginAlpha_l64 gatewayControllerName optional,
                                InetAddressIPv4 gcAddr1,
                                InetAddressIPv4 gcAddr2 optional,
                                HbTimerType_187 hbTimer optional,
                                InStreamsType_188 inStreams optional,
                                InetAddressIPv4 localAddr1 optional,
                                InetAddressIPv4 localAddr2 optional,
                                LocalPortType_189 localPort optional,
                                OpStateType_190 opState optional,
                                OutStreamsType_191 outStreams optional,
                                GwmCounter32 rcvdChecksumErrors optional,
                                GwmCounter32 rcvdChunks optional,
                                GwmCounter32 rcvdCtrlChunks optional,
                                GwmCounter32 rcvdPackets optional,
                                GwmCounter32 rcvdReassembled optional,
                                RemotePortType_192 remotePort optional,
                                GwmCounter32 retransmittedChunks optional,
                                SctpModeType_193 sctpMode optional,
                                GwmCounter32 sentChunks optional,
                                GwmCounter32 sentCtrlChunks optional,
                                GwmCounter32 sentFragmented optional,
                                GwmCounter32 sentPackets optional
                        } asp_list,
                        record of record {
                                InterfaceIdType_194 interfaceId,
                                XSD.Integer activeLAPCnt optional,
                                GwmLinkAdmState admState optional,
                                InterfaceNameType_195 interfaceName optional,
                                BitmapType_196 bitmap optional,
                                DataLinkStatusType_197 dataLinkStatus optional,
                                ObjectRef e1Interface optional,
                                ObjectRef t1Interface optional,
                                ObjectRef sdhSubLink optional,
                                ObjectRef sonetSubLink optional,
                                XSD.Integer failedLAPCnt optional,
                                IdlePollTimerType_198 idlePollTimer optional,
                                XSD.Integer l3MsgInc optional,
                                XSD.Integer l3MsgOut optional,
                                LineTypeType_199 lineType optional,
                                XSD.Integer lockedLAPCnt optional,
                                MaxAckDelayType_200 maxAckDelay optional,
                                MaxOutstandingFramesType_201 maxOutstandingFrames optional,
                                MaxRetransmissionsType_202 maxRetransmissions optional,
                                MgcLinkStatusType_203 mgcLinkStatus optional,
                                ProtocolType_204 protocol,
                                ProtocolSideType_205 protocolSide,
                                RetransmissionTimerType_206 retransmissionTimer optional,
                                SendQueueLengthType_207 sendQueueLength optional
                        } sgwInterface_list
                } virtualSgw_list,
                record of record {
                        GwmAlphaNumericFsUs_beginAlpha_l35 name,
                        AdapJitBufSizeType_106 adapJitBufSize optional,
                        GwmCounter32 audioCallsEstablAttempts optional,
                        GwmCounter32 audioCallsFailedEstablAttempts optional,
                        GwmCounter32 audioCongestCallAttempts optional,
                        DetailedTermInfoPackageType_107 detailedTermInfoPackage optional,
                        EchoDisablingModeType_108 echoDisablingMode optional,
                        EstAudioStatJitBufType_109 estAudioStatJitBuf optional,
                        EstDataStatJitBufType_110 estDataStatJitBuf optional,
                        IpEphTermNameType_111 ipEphTermName,
                        GwmOpState opState optional,
                        ProfileNameType_112 profileName optional,
                        ProfileStringType_113 profileString optional,
                        RtcpForwardingType_114 rtcpForwarding optional,
                        RtcpOnType_115 rtcpOn optional,
                        SrcAddressFilteringType_116 srcAddressFiltering optional,
                        ObjectRef toneProfile,
                        GwmCounter32 videoCallsEstablAttempts optional,
                        GwmCounter32 videoCallsFailedEstablAttempts optional,
                        GwmCounter32 videoCongestCallAttempts optional,
                        RtcpNplrType_117 rtcpNplr optional,
                        RtcpJdrType_118 rtcpJdr optional,
                        RtcpRtdType_119 rtcpRtd optional,
                        record of record {
                                IdType_161 id,
                                GwmGauge32 activeResources optional,
                                GwmDevAdmState admState optional,
                                DefaultEchoCancellationType_162 defaultEchoCancellation optional,
                                GwmEncoding defaultEncoding optional,
                                ObjectRef e1Interface optional,
                                EchoDelayType_163 echoDelay optional,
                                GwmCounter32 failedAttempts optional,
                                XSD.Token loopedTimeslots optional,
                                GwmOpState opState optional,
                                ObjectRef sdhSubLink optional,
                                GwmCounter32 setupAttempts optional,
                                ObjectRef sonetSubLink optional,
                                ObjectRef t1Interface optional,
                                TypeType_164 type_,
                                V52Type_165 v52 optional,
                                record length(0 .. 31) of record {
                                        ChannelIdType_166 channelId,
                                        ContextIdType_167 contextId optional,
                                        EchoCancelType_168 echoCancel optional,
                                        GwmDisplayString monitoredEvents optional,
                                        SpeechConvType_169 speechConv optional,
                                        StartTimeType_170 startTime optional,
                                        GwmDisplayString toneId optional,
                                        record {
                                                ChannelIdType_171 channelId,
                                                CodecType_172 codec optional,
                                                CodecCNType_173 codecCN optional,
                                                CodecPtimeType_174 codecPtime optional,
                                                CodecTRType_175 codecTR optional,
                                                GwmCounter32 interArrivalJitter optional,
                                                GwmCounter32 packsPropDelay optional,
                                                GwmCounter32 rtpOctetsReceived optional,
                                                GwmCounter32 rtpOctetsSent optional,
                                                GwmCounter32 rtpPacketsLost optional,
                                                GwmCounter32 rtpPacketsReceived optional,
                                                GwmCounter32 rtpPacketsSent optional,
                                                StateType_176 state optional,
                                                GwmDisplayString terminationId optional
                                        } testTermination optional
                                } physicalTermination_list
                        } physicalDevice_list,
                        record of record {
                                DeviceNameType_153 deviceName,
                                GwmDevAdmState admState optional,
                                ObjectRef localPayloadAddr,
                                EchoDelayType_154 echoDelay optional,
                                record length(31 .. 31) of record {
                                        IpTermNameType_155 ipTermName,
                                        LocalPortType_156 localPort,
                                        PTimeType_157 pTime,
                                        PayloadTypeType_158 payloadType,
                                        PayloadTypeNumberType_159 payloadTypeNumber,
                                        InetAddressIPv4 remotePayloadAddr,
                                        RemotePortType_160 remotePort
                                } virtualIpTermination_list
                        } virtualIpDevice_list,
                        record {
                                NameType_120 name,
                                InetAddressIPv4 activeGcAddr optional,
                                ActiveGcPortType_121 activeGcPort optional,
                                GwmLinkAdmState admState optional,
                                ObjectRef bladePair,
                                GwmCounter32 congestionRcvdDropped optional,
                                GwmCounter32 congestionResume optional,
                                GwmCounter32 congestionSentDropped optional,
                                GwmCounter32 congestionStop optional,
                                DomainNameType_122 domainName optional,
                                EncodingType_123 encoding optional,
                                InetAddressIPv4 localAddress1 optional,
                                InetAddressIPv4 localAddress2 optional,
                                LocalPortType_124 localPort optional,
                                MGCOriginatedPendingLimitType_125 mGCOriginatedPendingLimit optional,
                                MGOriginatedPendingLimitType_126 mGOriginatedPendingLimit optional,
                                MaxNumberOfRetransmissionsType_127 maxNumberOfRetransmissions optional,
                                MaximumWaitDelayType_128 maximumWaitDelay optional,
                                MsgIdFormatType_129 msgIdFormat optional,
                                NormalMGExecutionTimeType_130 normalMGExecutionTime optional,
                                GwmOpState opState optional,
                                OverloadNotificationsType_131 overloadNotifications optional,
                                GwmCounter32 rcvdChecksumErrors optional,
                                GwmCounter32 rcvdChunks optional,
                                GwmCounter32 rcvdCtrlChunks optional,
                                GwmCounter32 rcvdPackets optional,
                                GwmCounter32 rcvdReassembled optional,
                                InetAddressIPv4 remoteAddress,
                                RemotePortType_132 remotePort optional,
                                GwmCounter32 retransmittedChunks optional,
                                SctpHbIntervalType_133 sctpHbInterval optional,
                                GwmCounter32 sentChunks optional,
                                GwmCounter32 sentCtrlChunks optional,
                                GwmCounter32 sentFragmented optional,
                                GwmCounter32 sentPackets optional,
                                T95Type_134 t95 optional,
                                TransactionRetentionTimerType_135 transactionRetentionTimer optional
                        } h248SctpLink optional,
                        record {
                                NameType_136 name,
                                InetAddressIPv4 activeGcAddr optional,
                                ActiveGcPortType_137 activeGcPort optional,
                                GwmLinkAdmState admState optional,
                                ObjectRef bladePair,
                                GwmInteger32 currentUdpInactTimer optional,
                                DomainNameType_138 domainName optional,
                                EncodingType_139 encoding optional,
                                InactivityMonType_140 inactivityMon optional,
                                InetAddressIPv4 localAddress1 optional,
                                LocalPortType_141 localPort optional,
                                MGCOriginatedPendingLimitType_142 mGCOriginatedPendingLimit optional,
                                MGOriginatedPendingLimitType_143 mGOriginatedPendingLimit optional,
                                MaxNumberOfRetransmissionsType_144 maxNumberOfRetransmissions optional,
                                MaximumWaitDelayType_145 maximumWaitDelay optional,
                                MsgIdFormatType_146 msgIdFormat optional,
                                NormalMGExecutionTimeType_147 normalMGExecutionTime optional,
                                GwmOpState opState optional,
                                OverloadNotificationsType_148 overloadNotifications optional,
                                InetAddressIPv4 remoteAddress,
                                RemotePortType_149 remotePort optional,
                                T95Type_150 t95 optional,
                                TransactionRetentionTimerType_151 transactionRetentionTimer optional,
                                UdpInactTimerType_152 udpInactTimer optional
                        } h248UdpLink optional,
                        record of record {
                                IdType_177 id,
                                ObjectRef physTerm1,
                                ObjectRef physTerm2 optional,
                                SpcTypeType_178 spcType,
                                ObjectRef vIpTerm optional,
                                record {
                                        IdType_179 id,
                                        GwmCounter32 interArrivalJitter optional,
                                        GwmCounter32 packsPropDelay optional,
                                        GwmCounter32 rtpOctetsReceived optional,
                                        GwmCounter32 rtpOctetsSent optional,
                                        GwmCounter32 rtpPacketsLost optional,
                                        GwmCounter32 rtpPacketsReceived optional,
                                        GwmCounter32 rtpPacketsSent optional
                                } ephemeralSpcTermination optional
                        } signaledSpc_list,
                        record of record {
                                IdType_182 id,
                                GwmOpState opState optional,
                                ObjectRef physTerm1,
                                ObjectRef physTerm2
                        } provisionedSpc_list
                } virtualMgw_list,
                record {
                        AdminStateType_1 adminState optional,
                        DefaultLocalPrefixMaskLengthType_2 defaultLocalPrefixMaskLength optional,
                        DefaultRemotePrefixMaskLengthType_3 defaultRemotePrefixMaskLength optional,
                        record of record {
                                InetAddressIPv4 prefixAddress,
                                MbqmPrefixMaskLength prefixMaskLength
                        } ipAddressPrefix_list,
                        record of record {
                                NpgNoType_4 npgNo,
                                InetAddressIPv4 localIpAddressPrefix optional,
                                MbqmPrefixMaskLength localPrefixMaskLength optional,
                                InetAddressIPv4 remoteIpAddressPrefix optional,
                                MbqmPrefixMaskLength remotePrefixMaskLength optional,
                                MbqmRatio avgAudioPLossRatio optional,
                                MbqmGauge32 avgAudioJitter optional,
                                MbqmGauge32 avgAudioRoundTripDelay optional,
                                MbqmRatio avgAudioPLossRemSideRatio optional,
                                MbqmGauge32 avgAudioJitterRemSide optional,
                                MbqmRatio avgVideoPLossRatio optional,
                                MbqmGauge32 avgVideoRoundTripDelay optional,
                                MbqmRatio avgVideoPLossRemSideRatio optional,
                                MbqmCounter64 accumAudioPackRcvd optional,
                                MbqmCounter64 accumAudioPLoss optional,
                                MbqmCounter64 accumAudioJitter optional,
                                MbqmCounter64 accumAudioRoundTripDelay optional,
                                MbqmCounter64 accumAudioPackRcvdRemSide optional,
                                MbqmCounter64 accumAudioPLossRemSide optional,
                                MbqmCounter64 accumAudioJitterRemSide optional,
                                MbqmCounter64 accumVideoPackRcvd optional,
                                MbqmCounter64 accumVideoPLoss optional,
                                MbqmCounter64 accumVideoRoundTripDelay optional,
                                MbqmCounter64 accumVideoPackRcvdRemSide optional,
                                MbqmCounter64 accumVideoPLossRemSide optional,
                                MbqmCounter32 accumAudioNoOfReadings optional,
                                MbqmCounter32 accumAudioNoOfRTCPReadings optional,
                                MbqmCounter32 accumVideoNoOfReadings optional,
                                MbqmCounter32 accumVideoNoOfRTCPReadings optional
                        } networkPathGroup_list
                } qosMonitoring,
                record {
                        DspcpContinousAmrTrans continousAmrTrans optional,
                        VideoBufferSizeType_5 videoBufferSize optional,
                        VideoBufferCongThrType_6 videoBufferCongThr optional,
                        DspcpCorruptVideoDataStrategy corruptVideoDataStrategy optional,
                        DspcpLostVideoDataStrategy lostVideoDataStrategy optional,
                        AudioVideoDefaultSkewType_7 audioVideoDefaultSkew optional,
                        LipSyncFineTuningInteractiveType_8 lipSyncFineTuningInteractive optional,
                        LipSyncFineTuningStreamingType_9 lipSyncFineTuningStreaming optional,
                        ForcedVideoSegmType_10 forcedVideoSegm optional,
                        To3g324mDegVideoBitrateThrH263v1Type_11 to3g324mDegVideoBitrateThrH263v1 optional,
                        ToIpDegVideoBitrateThrH263v1Type_12 toIpDegVideoBitrateThrH263v1 optional,
                        To3g324mDegVideoBitrateThrH263v2Type_13 to3g324mDegVideoBitrateThrH263v2 optional,
                        ToIpDegVideoBitrateThrH263v2Type_14 toIpDegVideoBitrateThrH263v2 optional,
                        To3g324mDegVideoBitrateThrMPEG4Type_15 to3g324mDegVideoBitrateThrMPEG4 optional,
                        ToIpDegVideoBitrateThrMPEG4Type_16 toIpDegVideoBitrateThrMPEG4 optional,
                        To3g324mDegVideoBitrateThrH264Type_17 to3g324mDegVideoBitrateThrH264 optional,
                        ToIpDegVideoBitrateThrH264Type_18 toIpDegVideoBitrateThrH264 optional,
                        To3g324mDegVideoCallThrType_19 to3g324mDegVideoCallThr optional,
                        ToIpDegVideoCallThrType_20 toIpDegVideoCallThr optional,
                        NsrpInitialDelayType_21 nsrpInitialDelay optional,
                        DspcpVfuGeneration vfuGeneration optional,
                        DspcpCounter64 currActiveVideoCalls optional,
                        DspcpCounter64 currActive3g324mStrCalls optional,
                        DspcpCounter64 totSuccVideoCallSetupReq optional,
                        DspcpCounter64 totRejVideoCallSetupReq optional,
                        DspcpCounter64 totSuccVideoCallsH263v1 optional,
                        DspcpCounter64 totSuccVideoCallsH263v2 optional,
                        DspcpCounter64 totSuccVideoCallsH264 optional,
                        DspcpCounter64 totSuccVideoCallsMpeg4 optional,
                        DspcpCounter64 totVideoCallsWithoutSyncMarkers optional,
                        DspcpCounter64 totVideoCallsExpLostDataMaxLimit optional,
                        DspcpCounter64 totVideoCallsExpLostDataCongThrLimit optional,
                        DspcpCounter64 totDegVideoQualCallsIpTo3g324m optional,
                        DspcpCounter64 totDegVideoQualCalls3g324mToIp optional,
                        DspcpCounter64 totDegVideoQualSecsIpTo3g324m optional,
                        DspcpCounter64 totDegVideoQualSecs3g324mToIp optional
                } video3g324m
        } mgwApplication
}
with {
  variant "element";
  variant (blade_list) "untagged";
  variant (blade_list[-]) "name as 'Blade'";
  variant (blade_list[-].timingOutletSrc) "defaultForEmpty as '0'";
  variant (blade_list[-].cp) "name as capitalized";
  variant (blade_list[-].e1Interface_list) "untagged";
  variant (blade_list[-].e1Interface_list[-]) "name as 'E1Interface'";
  variant (blade_list[-].e1Interface_list[-].port_) "name as 'port'";
  variant (blade_list[-].internalEthernetInterface_list) "untagged";
  variant (blade_list[-].internalEthernetInterface_list[-]) "name as 'InternalEthernetInterface'";
  variant (blade_list[-].internalEthernetInterface_list[-].port_) "name as 'port'";
  variant (blade_list[-].license_list) "untagged";
  variant (blade_list[-].license_list[-]) "name as 'License'";
  variant (blade_list[-].sdhInterface) "name as capitalized";
  variant (blade_list[-].sdhInterface.sdhSubLink_list) "untagged";
  variant (blade_list[-].sdhInterface.sdhSubLink_list[-]) "name as 'SdhSubLink'";
  variant (blade_list[-].signalingInterface) "name as capitalized";
  variant (blade_list[-].sonetInterface) "name as capitalized";
  variant (blade_list[-].sonetInterface.sonetPathLink_list) "untagged";
  variant (blade_list[-].sonetInterface.sonetPathLink_list[-]) "name as 'SonetPathLink'";
  variant (blade_list[-].sonetInterface.sonetPathLink_list[-].sonetSubLink_list) "untagged";
  variant (blade_list[-].sonetInterface.sonetPathLink_list[-].sonetSubLink_list[-]) "name as 'SonetSubLink'";
  variant (blade_list[-].t1Interface_list) "untagged";
  variant (blade_list[-].t1Interface_list[-]) "name as 'T1Interface'";
  variant (blade_list[-].t1Interface_list[-].port_) "name as 'port'";
  variant (system_) "name as 'System'";
  variant (system_.sctpParameters) "name as capitalized";
  variant (system_.sctpParameters.rtoInitial) "defaultForEmpty as '1000'";
  variant (system_.sctpParameters.rtoMin) "defaultForEmpty as '500'";
  variant (system_.sctpParameters.rtoMax) "defaultForEmpty as '10000'";
  variant (system_.sctpParameters.rtoAlpha) "defaultForEmpty as '3'";
  variant (system_.sctpParameters.rtoBeta) "defaultForEmpty as '2'";
  variant (system_.sctpParameters.associationMaxRetrans) "defaultForEmpty as '10'";
  variant (system_.sctpParameters.maxInitRetrans) "defaultForEmpty as '8'";
  variant (system_.sctpParameters.maxShutdownRetrans) "defaultForEmpty as '5'";
  variant (system_.sctpParameters.mtu) "defaultForEmpty as '1428'";
  variant (system_.sctpParameters.valCookieLife) "defaultForEmpty as '400'";
  variant (system_.arpParameters) "name as capitalized";
  variant (system_.arpParameters.eventFilter) "defaultForEmpty as '3'";
  variant (system_.arpParameters.fastSupInterval) "defaultForEmpty as '10'";
  variant (system_.arpParameters.downSupInterval) "defaultForEmpty as '100'";
  variant (system_.arpParameters.addrCollSupInterval) "defaultForEmpty as '10'";
  variant (system_.arpParameters.addrCollEventFilterl) "defaultForEmpty as '3'";
  variant (system_.bladePair_list) "untagged";
  variant (system_.bladePair_list[-]) "name as 'BladePair'";
  variant (system_.physicalTone_list) "untagged";
  variant (system_.physicalTone_list[-]) "name as 'PhysicalTone'";
  variant (system_.trafficSupervision) "name as capitalized";
  variant (system_.trafficSupervision.trafficSupervisionMaliciousPacketsThr) "defaultForEmpty as '0'";
  variant (system_.trafficSupervision.trafficSupervisionMaliciousPacketsHys) "defaultForEmpty as '0'";
  variant (system_.trafficSupervision.trafficSupervisionExcessiveBandwidthThr) "defaultForEmpty as '0'";
  variant (system_.trafficSupervision.trafficSupervisionExcessiveBandwidthHys) "defaultForEmpty as '0'";
  variant (system_.trafficSupervision.trafficSupervisionMediaStopSupervision) "defaultForEmpty as '1'";
  variant (system_.trafficSupervision.trafficSupervisionMaliciousTrafficLog) "defaultForEmpty as '1'";
  variant (system_.trafficSupervision.trafficSupervisionExcessiveTrafficLog) "defaultForEmpty as '1'";
  variant (network) "name as capitalized";
  variant (network.h248Route_list) "untagged";
  variant (network.h248Route_list[-]) "name as 'H248Route'";
  variant (network.virtualRouter) "name as capitalized";
  variant (network.virtualRouter.ipInterface_list) "untagged";
  variant (network.virtualRouter.ipInterface_list[-]) "name as 'IpInterface'";
  variant (network.virtualRouter.ipInterface_list[-].address_) "name as 'address'";
  variant (network.virtualRouter.ipInterface_list[-].addressGroup) "defaultForEmpty as '0'";
  variant (network.virtualRouter.nextHop_list) "untagged";
  variant (network.virtualRouter.nextHop_list[-]) "name as 'NextHop'";
  variant (network.virtualRouter.nextHop_list[-].address_) "name as 'address'";
  variant (network.virtualRouter.route_list) "untagged";
  variant (network.virtualRouter.route_list[-]) "name as 'Route'";
  variant (network.virtualRouter.route_list[-].type_) "name as 'type'";
  variant (mgwApplication) "name as capitalized";
  variant (mgwApplication.addressOffset) "defaultForEmpty as '0'";
  variant (mgwApplication.payloadProfile_list) "untagged";
  variant (mgwApplication.payloadProfile_list[-]) "name as 'PayloadProfile'";
  variant (mgwApplication.payloadMapping_list) "untagged";
  variant (mgwApplication.payloadMapping_list[-]) "name as 'PayloadMapping'";
  variant (mgwApplication.signalingDevice_list) "untagged";
  variant (mgwApplication.signalingDevice_list[-]) "name as 'SignalingDevice'";
  variant (mgwApplication.signalingDevice_list[-].admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.signalingDevice_list[-].signalingChannel_list) "untagged";
  variant (mgwApplication.signalingDevice_list[-].signalingChannel_list[-]) "name as 'SignalingChannel'";
  variant (mgwApplication.toneProfile_list) "untagged";
  variant (mgwApplication.toneProfile_list[-]) "name as 'ToneProfile'";
  variant (mgwApplication.toneProfile_list[-].h248Tone_list) "untagged";
  variant (mgwApplication.toneProfile_list[-].h248Tone_list[-]) "name as 'H248Tone'";
  variant (mgwApplication.toneProfile_list[-].h248Tone_list[-].defaultTimeout) "defaultForEmpty as '0'";
  variant (mgwApplication.virtualSgw_list) "untagged";
  variant (mgwApplication.virtualSgw_list[-]) "name as 'VirtualSgw'";
  variant (mgwApplication.virtualSgw_list[-].trTimer) "defaultForEmpty as '5'";
  variant (mgwApplication.virtualSgw_list[-].asp_list) "untagged";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-]) "name as 'Asp'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].hbTimer) "defaultForEmpty as '60'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].localPort) "defaultForEmpty as '9900'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].outStreams) "defaultForEmpty as '20'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].remotePort) "defaultForEmpty as '9900'";
  variant (mgwApplication.virtualSgw_list[-].asp_list[-].sctpMode) "defaultForEmpty as 'server'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list) "untagged";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-]) "name as 'SgwInterface'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-].admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-].idlePollTimer) "defaultForEmpty as '10'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-].maxRetransmissions) "defaultForEmpty as '3'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-].retransmissionTimer) "defaultForEmpty as '3000'";
  variant (mgwApplication.virtualSgw_list[-].sgwInterface_list[-].sendQueueLength) "defaultForEmpty as '30'";
  variant (mgwApplication.virtualMgw_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-]) "name as 'VirtualMgw'";
  variant (mgwApplication.virtualMgw_list[-].adapJitBufSize) "defaultForEmpty as '200'";
  variant (mgwApplication.virtualMgw_list[-].detailedTermInfoPackage) "defaultForEmpty as 'enabled'";
  variant (mgwApplication.virtualMgw_list[-].echoDisablingMode) "defaultForEmpty as 'g168'";
  variant (mgwApplication.virtualMgw_list[-].estAudioStatJitBuf) "defaultForEmpty as '50'";
  variant (mgwApplication.virtualMgw_list[-].estDataStatJitBuf) "defaultForEmpty as '50'";
  variant (mgwApplication.virtualMgw_list[-].profileName) "defaultForEmpty as 'ericsson_mgw'";
  variant (mgwApplication.virtualMgw_list[-].rtcpForwarding) "defaultForEmpty as 'on'";
  variant (mgwApplication.virtualMgw_list[-].rtcpOn) "defaultForEmpty as 'true'";
  variant (mgwApplication.virtualMgw_list[-].srcAddressFiltering) "defaultForEmpty as 'off'";
  variant (mgwApplication.virtualMgw_list[-].rtcpNplr) "defaultForEmpty as 'disabled'";
  variant (mgwApplication.virtualMgw_list[-].rtcpJdr) "defaultForEmpty as 'disabled'";
  variant (mgwApplication.virtualMgw_list[-].rtcpRtd) "defaultForEmpty as 'disabled'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-]) "name as 'PhysicalDevice'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].defaultEchoCancellation) "defaultForEmpty as 'on'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].defaultEncoding) "defaultForEmpty as 'a-law'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].echoDelay) "defaultForEmpty as '0'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].type_) "name as 'type'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].v52) "defaultForEmpty as 'disabled'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-]) "name as 'PhysicalTermination'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-].testTermination) "name as capitalized";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-].testTermination.codec) "defaultForEmpty as 'noOverride'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-].testTermination.codecCN) "defaultForEmpty as 'on'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-].testTermination.codecPtime) "defaultForEmpty as 'Ptime-10'";
  variant (mgwApplication.virtualMgw_list[-].physicalDevice_list[-].physicalTermination_list[-].testTermination.codecTR) "defaultForEmpty as 'on'";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list[-]) "name as 'VirtualIpDevice'";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list[-].admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list[-].echoDelay) "defaultForEmpty as '0'";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list[-].virtualIpTermination_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].virtualIpDevice_list[-].virtualIpTermination_list[-]) "name as 'VirtualIpTermination'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink) "name as capitalized";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.encoding) "defaultForEmpty as 'compacttext'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.localPort) "defaultForEmpty as '2944'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.mGCOriginatedPendingLimit) "defaultForEmpty as '2'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.mGOriginatedPendingLimit) "defaultForEmpty as '3'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.maxNumberOfRetransmissions) "defaultForEmpty as '2'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.maximumWaitDelay) "defaultForEmpty as '1000'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.msgIdFormat) "defaultForEmpty as 'device-name'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.normalMGExecutionTime) "defaultForEmpty as '2000'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.remotePort) "defaultForEmpty as '2944'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.sctpHbInterval) "defaultForEmpty as '5'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.t95) "defaultForEmpty as '500'";
  variant (mgwApplication.virtualMgw_list[-].h248SctpLink.transactionRetentionTimer) "defaultForEmpty as '16000'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink) "name as capitalized";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.admState) "defaultForEmpty as 'unlocked'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.encoding) "defaultForEmpty as 'compacttext'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.localPort) "defaultForEmpty as '2944'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.mGCOriginatedPendingLimit) "defaultForEmpty as '2'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.mGOriginatedPendingLimit) "defaultForEmpty as '3'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.maxNumberOfRetransmissions) "defaultForEmpty as '2'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.maximumWaitDelay) "defaultForEmpty as '1000'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.msgIdFormat) "defaultForEmpty as 'device-name'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.normalMGExecutionTime) "defaultForEmpty as '2000'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.remotePort) "defaultForEmpty as '2944'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.t95) "defaultForEmpty as '500'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.transactionRetentionTimer) "defaultForEmpty as '16000'";
  variant (mgwApplication.virtualMgw_list[-].h248UdpLink.udpInactTimer) "defaultForEmpty as '5'";
  variant (mgwApplication.virtualMgw_list[-].signaledSpc_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].signaledSpc_list[-]) "name as 'SignaledSpc'";
  variant (mgwApplication.virtualMgw_list[-].signaledSpc_list[-].ephemeralSpcTermination) "name as capitalized";
  variant (mgwApplication.virtualMgw_list[-].provisionedSpc_list) "untagged";
  variant (mgwApplication.virtualMgw_list[-].provisionedSpc_list[-]) "name as 'ProvisionedSpc'";
  variant (mgwApplication.qosMonitoring) "name as capitalized";
  variant (mgwApplication.qosMonitoring.adminState) "defaultForEmpty as '0'";
  variant (mgwApplication.qosMonitoring.defaultLocalPrefixMaskLength) "defaultForEmpty as '32'";
  variant (mgwApplication.qosMonitoring.defaultRemotePrefixMaskLength) "defaultForEmpty as '0'";
  variant (mgwApplication.qosMonitoring.ipAddressPrefix_list) "untagged";
  variant (mgwApplication.qosMonitoring.ipAddressPrefix_list[-]) "name as 'IpAddressPrefix'";
  variant (mgwApplication.qosMonitoring.networkPathGroup_list) "untagged";
  variant (mgwApplication.qosMonitoring.networkPathGroup_list[-]) "name as 'NetworkPathGroup'";
  variant (mgwApplication.video3g324m) "name as capitalized";
  variant (mgwApplication.video3g324m.videoBufferSize) "defaultForEmpty as '10000'";
  variant (mgwApplication.video3g324m.videoBufferCongThr) "defaultForEmpty as '7000'";
  variant (mgwApplication.video3g324m.audioVideoDefaultSkew) "defaultForEmpty as '100'";
  variant (mgwApplication.video3g324m.lipSyncFineTuningInteractive) "defaultForEmpty as '100'";
  variant (mgwApplication.video3g324m.lipSyncFineTuningStreaming) "defaultForEmpty as '100'";
  variant (mgwApplication.video3g324m.forcedVideoSegm) "defaultForEmpty as '2'";
  variant (mgwApplication.video3g324m.to3g324mDegVideoBitrateThrH263v1) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.toIpDegVideoBitrateThrH263v1) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.to3g324mDegVideoBitrateThrH263v2) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.toIpDegVideoBitrateThrH263v2) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.to3g324mDegVideoBitrateThrMPEG4) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.toIpDegVideoBitrateThrMPEG4) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.to3g324mDegVideoBitrateThrH264) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.toIpDegVideoBitrateThrH264) "defaultForEmpty as '30'";
  variant (mgwApplication.video3g324m.to3g324mDegVideoCallThr) "defaultForEmpty as '20'";
  variant (mgwApplication.video3g324m.toIpDegVideoCallThr) "defaultForEmpty as '20'";
  variant (mgwApplication.video3g324m.nsrpInitialDelay) "defaultForEmpty as '0'";
};


}
with {
  encode "XML";
  variant "namespace as 'http://www.ericsson.com/is/isco/Mgw/R9B27'";
  variant "controlNamespace 'http://www.w3.org/2001/XMLSchema-instance' prefix 'xsi'";
  variant "elementFormQualified";
}