generated/onu2-g.go - omci-lib-go - Gitiles

 /*
  * Copyright (c) 2018 - present.  Boling Consulting Solutions (bcsw.net)
  * Copyright 2020-present Open Networking Foundation

  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at

  * http://www.apache.org/licenses/LICENSE-2.0

  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 /*
  * NOTE: This file was generated, manual edits will be overwritten!
  *
  * Generated by 'goCodeGenerator.py':
  *              https://github.com/cboling/OMCI-parser/README.md
  */

 package generated

 import "github.com/deckarep/golang-set"

 // Onu2GClassID is the 16-bit ID for the OMCI
 // Managed entity ONU2-G
 const Onu2GClassID = ClassID(257) // 0x0101

 var onu2gBME *ManagedEntityDefinition

 // Onu2G (Class ID: #257 / 0x0101)
 //	This ME contains additional attributes associated with a PON ONU. The ONU automatically creates
 //	an instance of this ME. Its attributes are populated according to data within the ONU itself.
 //
 //	This ME is the same as the ONT2-G of [ITUT G.984.4], with extensions.
 //
 //	Relationships
 //		This ME is paired with the ONU-G entity.
 //
 //	Attributes
 //		Managed Entity Id
 //			This attribute uniquely identifies each instance of this ME. There is only one instance, number
 //			0. (R) (mandatory) (2-bytes)
 //
 //		Equipment Id
 //			This attribute may be used to identify the specific type of ONU. In some environments, this
 //			attribute may include the common language equipment identification (CLEI) code. (R) (optional)
 //			(20-bytes)
 //
 //		Optical Network Unit Management And Control Channel Omcc Version
 //			0xA3	ITU-T G.988 (2012). Baseline message set only
 //
 //			0xB0	ITU-T G.988 (2010). Baseline and extended message set
 //
 //			0xB1	ITU-T G.988 Amd.1 (2011). Baseline and extended message set
 //
 //			0xB2	ITU-T G.988 Amd.2 (2012). Baseline and extended message set
 //
 //			0xB3	ITU-T G.988 (2012). Baseline and extended message set
 //
 //			0xB4	ITU-T G.988 Amd1 (2014) Baseline and extended message set
 //
 //			0xB5	Do not use
 //
 //			(R) (mandatory) (1-byte)
 //
 //			Optical network unit management and control channel (OMCC) version: This attribute identifies
 //			the version of the OMCC protocol being used by the ONU. This allows the OLT to manage a network
 //			with ONUs that support different OMCC versions. Release levels of [ITUT G.984.4] are supported
 //			with code points of the form 0x8y and 0x9y, where y is a hexadecimal digit in the range 0..F.
 //			Support for continuing revisions of this Recommendation is defined in the 0xAy and OxBy range.
 //
 //			NOTE 1 - The complete list of managed entities supported by an ONU cannot be derived from the
 //			OMCC version attribute. Refer to other ITUT-G.988 OMCI mechanisms for deriving this information
 //			(clause I.1.1.1 which describes the use of clauses 9.12.9 Managed entity and 9.12.10 Attribute
 //			ME for retrieval of ITU-T G.988 supported ME, and clause I.1.2 for discovering the ONU hardware
 //			and service configuration of the ONU through MIB uploads.)
 //
 //			NOTE 2 -  0xBz values greater than B5 are reserved to report new ITUT-G.988 Annex A message
 //			versions (relative to ITU-T G.988 (2014) Amd1).
 //
 //			0x80	ITU-T G.984.4 (06/04)
 //
 //			NOTE - For historical reasons, this code point may also appear in ONUs that support later
 //			versions of [ITU-T G.984.4].
 //
 //			0x81	ITU-T G.984.4 2004 Amd.1 (06/05)
 //
 //			0x82	ITU-T G.984.4 2004 Amd.2 (03/06)
 //
 //			0x83	ITU-T G.984.4 2004 Amd.3 (12/06)
 //
 //			0x84	ITU-T G.984.4 2008 (02/08)
 //
 //			0x85	ITU-T G.984.4 2008 Amd.1 (06/09)
 //
 //			0x86	ITU-T G.984.4 2008 Amd.2 (2009). Baseline message set only, without the extended message
 //			set option
 //
 //			0x96	ITU-T G.984.4 2008 Amd.2 (2009). Extended message set option, in addition to the baseline
 //			message set.
 //
 //			0xA0	ITU-T G.988 (2010). Baseline message set only, without the extended message set option
 //
 //			0xA1	ITU-T G.988 Amd.1 (2011). Baseline message set only
 //
 //			0xA2	ITU-T G.988 Amd.2 (2012). Baseline message set only
 //
 //		Vendor Product Code
 //			This attribute contains a vendor-specific product code for the ONU. (R) (optional) (2-bytes)
 //
 //		Security Capability
 //			This attribute advertises the security capabilities of the ONU. The following code points are
 //			defined:
 //
 //			0	Reserved
 //
 //			1	Advanced encryption standard-128 (AES-128) payload encryption supported
 //
 //			2..255	Reserved
 //
 //			(R) (mandatory) (1-byte)
 //
 //		Security Mode
 //			This attribute specifies the current security mode of the ONU. All secure GEM ports in an ONU
 //			must use the same security mode at any given time. The following code points are defined:
 //
 //			0	Reserved
 //
 //			1	AES-128 algorithm
 //
 //			2..255	Reserved
 //
 //			Upon ME instantiation, the ONU sets this attribute to 1, AES-128. Attribute value 1 does not
 //			imply that any channels are encrypted; that process is negotiated at the PLOAM layer. It only
 //			signifies that the advanced encryption standard (AES) with 128-bit keys is the security mode to
 //			be used on any channels that the OLT may choose to encrypt. (R,-W) (mandatory) (1-byte)
 //
 //		Total Priority Queue Number
 //			This attribute reports the total number of upstream priority queues that are not associated with
 //			a circuit pack, but with the ONU in its entirety. Upon ME instantiation, the ONU sets this
 //			attribute to the value that represents its capabilities. (R) (mandatory) (2-bytes)
 //
 //		Total Traffic Scheduler Number
 //			This attribute reports the total number of traffic schedulers that are not associated with a
 //			circuit pack, but with the ONU in its entirety. The ONU supports null function, strict priority
 //			scheduling and weighted round robin (WRR) from the priority control and guarantee of minimum
 //			rate control points of view, respectively. If the ONU has no global traffic schedulers, this
 //			attribute is 0. (R) (mandatory) (1-byte)
 //
 //		Deprecated
 //			This attribute should always be set to 1 by the ONU and ignored by the OLT. (R) (mandatory)
 //			(1-byte)
 //
 //		Total Gem Port_Id Number
 //			Total GEM port-ID number: This attribute reports the total number of GEM port-IDs supported by
 //			the ONU. The maximum value is specified in the corresponding TC recommendations. Upon ME
 //			instantiation, the ONU sets this attribute to the value that represents its capabilities. (R)
 //			(optional) (2-bytes)
 //
 //		Sysuptime
 //			This attribute counts 10 ms intervals since the ONU was last initialized. It rolls over to 0
 //			when full (see [IETF RFC 1213]). (R) (optional) (4-bytes)
 //
 //		Connectivity Capability
 //			This attribute indicates the Ethernet connectivity models that the ONU can support. The value 0
 //			indicates that the capability is not supported; 1 signifies support. The following code points
 //			are defined.
 //
 //			NOTE 1 - It is not implied that an ONU may not support other connectivity models.
 //
 //			(R) (optional) (2 bytes)
 //
 //		Current Connectivity Mode
 //			(R, W) (optional) (1 byte)
 //
 //			This attribute specifies the Ethernet connectivity model that the OLT wishes to use. The
 //			following code points are defined.
 //
 //			NOTE 2 - It is not implied that an ONU supports a given connectivity model only when that model
 //			is explicitly selected by this attribute. The ONU is free to support additional models at any
 //			and all times.
 //
 //		Quality Of Service Qos Configuration Flexibility
 //			Quality of service (QoS) configuration flexibility: This attribute reports whether various MEs
 //			in the ONU are fixed by the ONU's architecture or whether they are configurable. For backward
 //			compatibility, and if the ONU does not support this attribute, all such attributes are
 //			understood to be hard-wired. (R) (optional) (2-bytes)
 //
 //			Discussion:
 //
 //			To allow for the possibility that the OLT does not support flexible configuration, the ONU
 //			vendor must assure that the priority queues and traffic schedulers are configured in a
 //			meaningful and useful way by factory default, and that this default configuration is restored
 //			upon ONU initialization and MIB reset. The specifics of such a configuration are beyond the
 //			scope of this Recommendation.
 //
 //			The ME ID of both the T-CONT and traffic scheduler contains a slot number. Even when attributes
 //			in the above list are RW, it is never permitted to change the slot number in a reference. That
 //			is, configuration flexibility never extends across slots. It is also not permitted to change the
 //			directionality of an upstream queue to downstream or vice versa.
 //
 //		Priority Queue Scale Factor
 //			If this optional attribute is implemented, it specifies the scale factor of several attributes
 //			of the priority queue ME of clause-9.2.10. The default value of this attribute is 1. (R, W)
 //			(optional) (2-bytes)
 //
 //			NOTE 3 - Some legacy implementations may take the queue scale factor from the GEM block length
 //			attribute of the ANI-G ME. That option is discouraged in new implementations.
 //
 type Onu2G struct {
 	ManagedEntityDefinition
 	Attributes AttributeValueMap
 }

 func init() {
 	onu2gBME = &ManagedEntityDefinition{
 		Name:    "Onu2G",
 		ClassID: 257,
 		MessageTypes: mapset.NewSetWith(
 			Get,
 			Set,
 		),
 		AllowedAttributeMask: 0xfffc,
 		AttributeDefinitions: AttributeDefinitionMap{
 			0:  Uint16Field("ManagedEntityId", PointerAttributeType, 0x0000, 0, mapset.NewSetWith(Read), false, false, false, 0),
 			1:  MultiByteField("EquipmentId", StringAttributeType, 0x8000, 20, toOctets("AAAAAAAAAAAAAAAAAAAAAAAAAAA="), mapset.NewSetWith(Read), false, true, false, 1),
 			2:  ByteField("OpticalNetworkUnitManagementAndControlChannelOmccVersion", EnumerationAttributeType, 0x4000, 164, mapset.NewSetWith(Read), true, false, false, 2),
 			3:  Uint16Field("VendorProductCode", UnsignedIntegerAttributeType, 0x2000, 0, mapset.NewSetWith(Read), false, true, false, 3),
 			4:  ByteField("SecurityCapability", EnumerationAttributeType, 0x1000, 0, mapset.NewSetWith(Read), false, false, false, 4),
 			5:  ByteField("SecurityMode", EnumerationAttributeType, 0x0800, 0, mapset.NewSetWith(Read, Write), false, false, false, 5),
 			6:  Uint16Field("TotalPriorityQueueNumber", UnsignedIntegerAttributeType, 0x0400, 0, mapset.NewSetWith(Read), false, false, false, 6),
 			7:  ByteField("TotalTrafficSchedulerNumber", UnsignedIntegerAttributeType, 0x0200, 0, mapset.NewSetWith(Read), false, false, false, 7),
 			8:  ByteField("Deprecated", UnsignedIntegerAttributeType, 0x0100, 1, mapset.NewSetWith(Read), false, false, true, 8),
 			9:  Uint16Field("TotalGemPortIdNumber", UnsignedIntegerAttributeType, 0x0080, 0, mapset.NewSetWith(Read), false, true, false, 9),
 			10: Uint32Field("Sysuptime", UnsignedIntegerAttributeType, 0x0040, 0, mapset.NewSetWith(Read), false, true, false, 10),
 			11: Uint16Field("ConnectivityCapability", BitFieldAttributeType, 0x0020, 0, mapset.NewSetWith(Read), false, true, false, 11),
 			12: ByteField("CurrentConnectivityMode", BitFieldAttributeType, 0x0010, 0, mapset.NewSetWith(Read, Write), false, true, false, 12),
 			13: Uint16Field("QualityOfServiceQosConfigurationFlexibility", BitFieldAttributeType, 0x0008, 0, mapset.NewSetWith(Read), false, true, false, 13),
 			14: Uint16Field("PriorityQueueScaleFactor", UnsignedIntegerAttributeType, 0x0004, 1, mapset.NewSetWith(Read, Write), false, true, false, 14),
 		},
 		Access:  CreatedByOnu,
 		Support: UnknownSupport,
 	}
 }

 // NewOnu2G (class ID 257) creates the basic
 // Managed Entity definition that is used to validate an ME of this type that
 // is received from or transmitted to the OMCC.
 func NewOnu2G(params ...ParamData) (*ManagedEntity, OmciErrors) {
 	return NewManagedEntity(*onu2gBME, params...)
 }
	/*
	* Copyright (c) 2018 - present. Boling Consulting Solutions (bcsw.net)
	* Copyright 2020-present Open Networking Foundation

	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at

	* http://www.apache.org/licenses/LICENSE-2.0

	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	/*
	* NOTE: This file was generated, manual edits will be overwritten!
	*
	* Generated by 'goCodeGenerator.py':
	* https://github.com/cboling/OMCI-parser/README.md
	*/

	package generated

	import "github.com/deckarep/golang-set"

	// Onu2GClassID is the 16-bit ID for the OMCI
	// Managed entity ONU2-G
	const Onu2GClassID = ClassID(257) // 0x0101

	var onu2gBME *ManagedEntityDefinition

	// Onu2G (Class ID: #257 / 0x0101)
	// This ME contains additional attributes associated with a PON ONU. The ONU automatically creates
	// an instance of this ME. Its attributes are populated according to data within the ONU itself.
	//
	// This ME is the same as the ONT2-G of [ITUT G.984.4], with extensions.
	//
	// Relationships
	// This ME is paired with the ONU-G entity.
	//
	// Attributes
	// Managed Entity Id
	// This attribute uniquely identifies each instance of this ME. There is only one instance, number
	// 0. (R) (mandatory) (2-bytes)
	//
	// Equipment Id
	// This attribute may be used to identify the specific type of ONU. In some environments, this
	// attribute may include the common language equipment identification (CLEI) code. (R) (optional)
	// (20-bytes)
	//
	// Optical Network Unit Management And Control Channel Omcc Version
	// 0xA3 ITU-T G.988 (2012). Baseline message set only
	//
	// 0xB0 ITU-T G.988 (2010). Baseline and extended message set
	//
	// 0xB1 ITU-T G.988 Amd.1 (2011). Baseline and extended message set
	//
	// 0xB2 ITU-T G.988 Amd.2 (2012). Baseline and extended message set
	//
	// 0xB3 ITU-T G.988 (2012). Baseline and extended message set
	//
	// 0xB4 ITU-T G.988 Amd1 (2014) Baseline and extended message set
	//
	// 0xB5 Do not use
	//
	// (R) (mandatory) (1-byte)
	//
	// Optical network unit management and control channel (OMCC) version: This attribute identifies
	// the version of the OMCC protocol being used by the ONU. This allows the OLT to manage a network
	// with ONUs that support different OMCC versions. Release levels of [ITUT G.984.4] are supported
	// with code points of the form 0x8y and 0x9y, where y is a hexadecimal digit in the range 0..F.
	// Support for continuing revisions of this Recommendation is defined in the 0xAy and OxBy range.
	//
	// NOTE 1 - The complete list of managed entities supported by an ONU cannot be derived from the
	// OMCC version attribute. Refer to other ITUT-G.988 OMCI mechanisms for deriving this information
	// (clause I.1.1.1 which describes the use of clauses 9.12.9 Managed entity and 9.12.10 Attribute
	// ME for retrieval of ITU-T G.988 supported ME, and clause I.1.2 for discovering the ONU hardware
	// and service configuration of the ONU through MIB uploads.)
	//
	// NOTE 2 - 0xBz values greater than B5 are reserved to report new ITUT-G.988 Annex A message
	// versions (relative to ITU-T G.988 (2014) Amd1).
	//
	// 0x80 ITU-T G.984.4 (06/04)
	//
	// NOTE - For historical reasons, this code point may also appear in ONUs that support later
	// versions of [ITU-T G.984.4].
	//
	// 0x81 ITU-T G.984.4 2004 Amd.1 (06/05)
	//
	// 0x82 ITU-T G.984.4 2004 Amd.2 (03/06)
	//
	// 0x83 ITU-T G.984.4 2004 Amd.3 (12/06)
	//
	// 0x84 ITU-T G.984.4 2008 (02/08)
	//
	// 0x85 ITU-T G.984.4 2008 Amd.1 (06/09)
	//
	// 0x86 ITU-T G.984.4 2008 Amd.2 (2009). Baseline message set only, without the extended message
	// set option
	//
	// 0x96 ITU-T G.984.4 2008 Amd.2 (2009). Extended message set option, in addition to the baseline
	// message set.
	//
	// 0xA0 ITU-T G.988 (2010). Baseline message set only, without the extended message set option
	//
	// 0xA1 ITU-T G.988 Amd.1 (2011). Baseline message set only
	//
	// 0xA2 ITU-T G.988 Amd.2 (2012). Baseline message set only
	//
	// Vendor Product Code
	// This attribute contains a vendor-specific product code for the ONU. (R) (optional) (2-bytes)
	//
	// Security Capability
	// This attribute advertises the security capabilities of the ONU. The following code points are
	// defined:
	//
	// 0 Reserved
	//
	// 1 Advanced encryption standard-128 (AES-128) payload encryption supported
	//
	// 2..255 Reserved
	//
	// (R) (mandatory) (1-byte)
	//
	// Security Mode
	// This attribute specifies the current security mode of the ONU. All secure GEM ports in an ONU
	// must use the same security mode at any given time. The following code points are defined:
	//
	// 0 Reserved
	//
	// 1 AES-128 algorithm
	//
	// 2..255 Reserved
	//
	// Upon ME instantiation, the ONU sets this attribute to 1, AES-128. Attribute value 1 does not
	// imply that any channels are encrypted; that process is negotiated at the PLOAM layer. It only
	// signifies that the advanced encryption standard (AES) with 128-bit keys is the security mode to
	// be used on any channels that the OLT may choose to encrypt. (R,-W) (mandatory) (1-byte)
	//
	// Total Priority Queue Number
	// This attribute reports the total number of upstream priority queues that are not associated with
	// a circuit pack, but with the ONU in its entirety. Upon ME instantiation, the ONU sets this
	// attribute to the value that represents its capabilities. (R) (mandatory) (2-bytes)
	//
	// Total Traffic Scheduler Number
	// This attribute reports the total number of traffic schedulers that are not associated with a
	// circuit pack, but with the ONU in its entirety. The ONU supports null function, strict priority
	// scheduling and weighted round robin (WRR) from the priority control and guarantee of minimum
	// rate control points of view, respectively. If the ONU has no global traffic schedulers, this
	// attribute is 0. (R) (mandatory) (1-byte)
	//
	// Deprecated
	// This attribute should always be set to 1 by the ONU and ignored by the OLT. (R) (mandatory)
	// (1-byte)
	//
	// Total Gem Port_Id Number
	// Total GEM port-ID number: This attribute reports the total number of GEM port-IDs supported by
	// the ONU. The maximum value is specified in the corresponding TC recommendations. Upon ME
	// instantiation, the ONU sets this attribute to the value that represents its capabilities. (R)
	// (optional) (2-bytes)
	//
	// Sysuptime
	// This attribute counts 10 ms intervals since the ONU was last initialized. It rolls over to 0
	// when full (see [IETF RFC 1213]). (R) (optional) (4-bytes)
	//
	// Connectivity Capability
	// This attribute indicates the Ethernet connectivity models that the ONU can support. The value 0
	// indicates that the capability is not supported; 1 signifies support. The following code points
	// are defined.
	//
	// NOTE 1 - It is not implied that an ONU may not support other connectivity models.
	//
	// (R) (optional) (2 bytes)
	//
	// Current Connectivity Mode
	// (R, W) (optional) (1 byte)
	//
	// This attribute specifies the Ethernet connectivity model that the OLT wishes to use. The
	// following code points are defined.
	//
	// NOTE 2 - It is not implied that an ONU supports a given connectivity model only when that model
	// is explicitly selected by this attribute. The ONU is free to support additional models at any
	// and all times.
	//
	// Quality Of Service Qos Configuration Flexibility
	// Quality of service (QoS) configuration flexibility: This attribute reports whether various MEs
	// in the ONU are fixed by the ONU's architecture or whether they are configurable. For backward
	// compatibility, and if the ONU does not support this attribute, all such attributes are
	// understood to be hard-wired. (R) (optional) (2-bytes)
	//
	// Discussion:
	//
	// To allow for the possibility that the OLT does not support flexible configuration, the ONU
	// vendor must assure that the priority queues and traffic schedulers are configured in a
	// meaningful and useful way by factory default, and that this default configuration is restored
	// upon ONU initialization and MIB reset. The specifics of such a configuration are beyond the
	// scope of this Recommendation.
	//
	// The ME ID of both the T-CONT and traffic scheduler contains a slot number. Even when attributes
	// in the above list are RW, it is never permitted to change the slot number in a reference. That
	// is, configuration flexibility never extends across slots. It is also not permitted to change the
	// directionality of an upstream queue to downstream or vice versa.
	//
	// Priority Queue Scale Factor
	// If this optional attribute is implemented, it specifies the scale factor of several attributes
	// of the priority queue ME of clause-9.2.10. The default value of this attribute is 1. (R, W)
	// (optional) (2-bytes)
	//
	// NOTE 3 - Some legacy implementations may take the queue scale factor from the GEM block length
	// attribute of the ANI-G ME. That option is discouraged in new implementations.
	//
	type Onu2G struct {
	ManagedEntityDefinition
	Attributes AttributeValueMap
	}

	func init() {
	onu2gBME = &ManagedEntityDefinition{
	Name: "Onu2G",
	ClassID: 257,
	MessageTypes: mapset.NewSetWith(
	Get,
	Set,
	),
	AllowedAttributeMask: 0xfffc,
	AttributeDefinitions: AttributeDefinitionMap{
	0: Uint16Field("ManagedEntityId", PointerAttributeType, 0x0000, 0, mapset.NewSetWith(Read), false, false, false, 0),
	1: MultiByteField("EquipmentId", StringAttributeType, 0x8000, 20, toOctets("AAAAAAAAAAAAAAAAAAAAAAAAAAA="), mapset.NewSetWith(Read), false, true, false, 1),
	2: ByteField("OpticalNetworkUnitManagementAndControlChannelOmccVersion", EnumerationAttributeType, 0x4000, 164, mapset.NewSetWith(Read), true, false, false, 2),
	3: Uint16Field("VendorProductCode", UnsignedIntegerAttributeType, 0x2000, 0, mapset.NewSetWith(Read), false, true, false, 3),
	4: ByteField("SecurityCapability", EnumerationAttributeType, 0x1000, 0, mapset.NewSetWith(Read), false, false, false, 4),
	5: ByteField("SecurityMode", EnumerationAttributeType, 0x0800, 0, mapset.NewSetWith(Read, Write), false, false, false, 5),
	6: Uint16Field("TotalPriorityQueueNumber", UnsignedIntegerAttributeType, 0x0400, 0, mapset.NewSetWith(Read), false, false, false, 6),
	7: ByteField("TotalTrafficSchedulerNumber", UnsignedIntegerAttributeType, 0x0200, 0, mapset.NewSetWith(Read), false, false, false, 7),
	8: ByteField("Deprecated", UnsignedIntegerAttributeType, 0x0100, 1, mapset.NewSetWith(Read), false, false, true, 8),
	9: Uint16Field("TotalGemPortIdNumber", UnsignedIntegerAttributeType, 0x0080, 0, mapset.NewSetWith(Read), false, true, false, 9),
	10: Uint32Field("Sysuptime", UnsignedIntegerAttributeType, 0x0040, 0, mapset.NewSetWith(Read), false, true, false, 10),
	11: Uint16Field("ConnectivityCapability", BitFieldAttributeType, 0x0020, 0, mapset.NewSetWith(Read), false, true, false, 11),
	12: ByteField("CurrentConnectivityMode", BitFieldAttributeType, 0x0010, 0, mapset.NewSetWith(Read, Write), false, true, false, 12),
	13: Uint16Field("QualityOfServiceQosConfigurationFlexibility", BitFieldAttributeType, 0x0008, 0, mapset.NewSetWith(Read), false, true, false, 13),
	14: Uint16Field("PriorityQueueScaleFactor", UnsignedIntegerAttributeType, 0x0004, 1, mapset.NewSetWith(Read, Write), false, true, false, 14),
	},
	Access: CreatedByOnu,
	Support: UnknownSupport,
	}
	}

	// NewOnu2G (class ID 257) creates the basic
	// Managed Entity definition that is used to validate an ME of this type that
	// is received from or transmitted to the OMCC.
	func NewOnu2G(params ...ParamData) (*ManagedEntity, OmciErrors) {
	return NewManagedEntity(*onu2gBME, params...)
	}