vendor/github.com/opencord/omci-lib-go/generated/physicalpathterminationpointreuni.go - bbsim - 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"

 // PhysicalPathTerminationPointReUniClassID is the 16-bit ID for the OMCI
 // Managed entity Physical path termination point RE UNI
 const PhysicalPathTerminationPointReUniClassID ClassID = ClassID(314)

 var physicalpathterminationpointreuniBME *ManagedEntityDefinition

 // PhysicalPathTerminationPointReUni (class ID #314)
 //	This ME represents an S'/R' interface in a mid-span PON RE that supports OEO regeneration in at
 //	least one direction, where physical paths terminate and physical path level functions are
 //	performed (transmit or receive).
 //
 //	Such an RE automatically creates an instance of this ME for each S'/R' interface port as
 //	follows.
 //
 //	o	When the RE has mid-span PON RE UNI interface ports built into its factory configuration.
 //
 //	o	When a cardholder is provisioned to expect a circuit pack of the mid-span PON RE UNI type.
 //
 //	o	When a cardholder provisioned for plug-and-play is equipped with a circuit pack of the midspan
 //	PON RE UNI type. Note that the installation of a plug-and-play card may indicate the presence of
 //	a mid-span PON RE UNI port via equipment ID as well as its type attribute, and indeed may cause
 //	the management ONU to instantiate a port-mapping package to specify the ports precisely.
 //
 //	The management ONU automatically deletes instances of this ME when a cardholder is neither
 //	provisioned to expect a mid-span PON RE UNI circuit pack, nor is it equipped with a mid-span PON
 //	RE UNI circuit pack.
 //
 //	As illustrated in Figure 8.2.10-3, a PPTP RE UNI may share the physical port with an RE upstream
 //	amplifier. The ONU declares a shared configuration through the port-mapping package combined
 //	port table, whose structure defines one ME as the master. It is recommended that the PPTP RE UNI
 //	be the master, with the RE upstream amplifier as a secondary ME.
 //
 //	The administrative state, operational state and ARC attributes of the master ME override similar
 //	attributes in secondary MEs associated with the same port. In the secondary ME, these attributes
 //	are present, but cause no action when written and have undefined values when read. The RE
 //	upstream amplifier should use its provisionable upstream alarm thresholds and should declare
 //	upstream alarms as necessary; other isomorphic alarms should be declared by the PPTP RE UNI. The
 //	test action should be addressed to the master ME.
 //
 //	Relationships
 //		An instance of this ME is associated with each instance of a mid-span PON RE S'/R' physical
 //		interface of an RE that includes OEO regeneration in either direction, and it may also be
 //		associated with an RE upstream amplifier.
 //
 //	Attributes
 //		Managed Entity Id
 //			NOTE 1 - This ME ID may be identical to that of an RE upstream amplifier if it shares the same
 //			physical slot and port.
 //
 //		Administrative State
 //			NOTE 2 - Administrative lock of a PPTP RE UNI results in loss of signal to any downstream ONUs.
 //
 //		Operational State
 //			Operational state: This attribute indicates whether the ME is capable of performing its
 //			function. Valid values are enabled (0) and disabled (1). (R) (optional) (1-byte)
 //
 //		Arc
 //			ARC:	See clause A.1.4.3. (R,-W) (optional) (1-byte)
 //
 //		Arc Interval
 //			ARC interval: See clause A.1.4.3. (R,-W) (optional) (1-byte)
 //
 //		Re Ani_G Pointer
 //			RE ANI-G pointer: This attribute points to an RE ANI-G instance. (R,-W) (mandatory) (2-bytes)
 //
 //		Total Optical Receive Signal Level Table
 //			Total optical receive signal level table: This table attribute reports a series of measurements
 //			of time averaged received upstream optical signal power. The measurement circuit should have a
 //			temporal response similar to a simple 1-pole low pass filter, with an effective time constant of
 //			the order of a GTC frame time. Each table entry has a 2-byte frame counter field (most
 //			significant end), and a 2-byte power measurement field. The frame counter field contains the
 //			least significant 16-bits of the superframe counter received closest to the time of the
 //			measurement. The power measurement field is a 2s complement integer referred to 1-mW (i.e.,
 //			dBm), with 0.002-dB granularity. The RE equipment should add entries to this table as frequently
 //			as is reasonable. The RE should clear the table once it is read by the OLT. (R) (optional) (4-*
 //			N-bytes, where N is the number of measurements present.)
 //
 //		Per Burst Receive Signal Level Table
 //			Per burst receive signal level table: This table attribute reports the most recent measurement
 //			of received burst upstream optical signal power. Each table entry has a 2-byte ONU-ID field
 //			(most significant end), and a 2-byte power measurement field. The power measurement field is a
 //			2s complement integer referred to 1-mW (i.e.,-dBm), with 0.002-dB granularity. (R) (optional)
 //			(4-* N-bytes, where N is the number of distinct ONUs connected to the S'/R' interface.)
 //
 //		Lower Receive Optical Threshold
 //			Lower receive optical threshold: This attribute specifies the optical level that the RE uses to
 //			declare the burst mode low received optical power alarm. Valid values are  -127-dBm (coded as
 //			254) to 0-dBm (coded as 0) in 0.5-dB increments. The default value 0xFF selects the RE's
 //			internal policy. (R,-W) (optional) (1-byte)
 //
 //		Upper Receive Optical Threshold
 //			Upper receive optical threshold: This attribute specifies the optical level that the RE uses to
 //			declare the burst mode high optical power alarm. Valid values are  -127-dBm (coded as 254) to
 //			0-dBm (coded as 0) in 0.5-dB increments. The default value 0xFF selects the RE's internal
 //			policy. (R,-W) (optional) (1-byte)
 //
 //		Transmit Optical Level
 //			Transmit optical level: This attribute reports the current measurement of the downstream mean
 //			optical launch power. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with
 //			0.002-dB granularity. (R) (optional) (2-bytes)
 //
 //		Lower Transmit Power Threshold
 //			Lower transmit power threshold: This attribute specifies the downstream minimum mean optical
 //			launch power at the S'/R' interface that the RE uses to declare the low transmit optical power
 //			alarm. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with 0.5-dB
 //			granularity. The default value 0x7F selects the RE's internal policy. (R,-W) (optional) (1-byte)
 //
 //		Upper Transmit Power Threshold
 //			Upper transmit power threshold: This attribute specifies the downstream maximum mean optical
 //			launch power at the S'/R' interface that the RE uses to declare the high transmit optical power
 //			alarm. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with 0.5-dB
 //			granularity. The default value 0x7F selects the RE's internal policy. (R,-W) (optional) (1-byte)
 //
 //		A Dditional Preamble
 //			Additional preamble: This attribute indicates the number of bytes of PLOu preamble that are
 //			unavoidably consumed while passing the RE. (R) (mandatory) (1-byte)
 //
 //		A Dditional Guard Time
 //			Additional guard time: This attribute indicates the number of bytes of extra guard time that are
 //			needed to ensure correct operation with the RE. (R) (mandatory) (1-byte)
 //
 type PhysicalPathTerminationPointReUni struct {
 	ManagedEntityDefinition
 	Attributes AttributeValueMap
 }

 func init() {
 	physicalpathterminationpointreuniBME = &ManagedEntityDefinition{
 		Name:    "PhysicalPathTerminationPointReUni",
 		ClassID: 314,
 		MessageTypes: mapset.NewSetWith(
 			Get,
 			GetNext,
 			Set,
 		),
 		AllowedAttributeMask: 0xfffc,
 		AttributeDefinitions: AttributeDefinitionMap{
 			0:  Uint16Field("ManagedEntityId", PointerAttributeType, 0x0000, 0, mapset.NewSetWith(Read), false, false, false, 0),
 			1:  ByteField("AdministrativeState", UnsignedIntegerAttributeType, 0x8000, 0, mapset.NewSetWith(Read, Write), false, false, false, 1),
 			2:  ByteField("OperationalState", UnsignedIntegerAttributeType, 0x4000, 0, mapset.NewSetWith(Read), true, true, false, 2),
 			3:  ByteField("Arc", UnsignedIntegerAttributeType, 0x2000, 0, mapset.NewSetWith(Read, Write), true, true, false, 3),
 			4:  ByteField("ArcInterval", UnsignedIntegerAttributeType, 0x1000, 0, mapset.NewSetWith(Read, Write), false, true, false, 4),
 			5:  Uint16Field("ReAniGPointer", UnsignedIntegerAttributeType, 0x0800, 0, mapset.NewSetWith(Read, Write), false, false, false, 5),
 			6:  TableField("TotalOpticalReceiveSignalLevelTable", TableAttributeType, 0x0400, TableInfo{nil, 4}, mapset.NewSetWith(Read), false, true, false, 6),
 			7:  TableField("PerBurstReceiveSignalLevelTable", TableAttributeType, 0x0200, TableInfo{nil, 4}, mapset.NewSetWith(Read), false, true, false, 7),
 			8:  ByteField("LowerReceiveOpticalThreshold", UnsignedIntegerAttributeType, 0x0100, 0, mapset.NewSetWith(Read, Write), false, true, false, 8),
 			9:  ByteField("UpperReceiveOpticalThreshold", UnsignedIntegerAttributeType, 0x0080, 0, mapset.NewSetWith(Read, Write), false, true, false, 9),
 			10: Uint16Field("TransmitOpticalLevel", UnsignedIntegerAttributeType, 0x0040, 0, mapset.NewSetWith(Read), false, true, false, 10),
 			11: ByteField("LowerTransmitPowerThreshold", UnsignedIntegerAttributeType, 0x0020, 0, mapset.NewSetWith(Read, Write), false, true, false, 11),
 			12: ByteField("UpperTransmitPowerThreshold", UnsignedIntegerAttributeType, 0x0010, 0, mapset.NewSetWith(Read, Write), false, true, false, 12),
 			13: ByteField("ADditionalPreamble", UnsignedIntegerAttributeType, 0x0008, 0, mapset.NewSetWith(Read), false, false, false, 13),
 			14: ByteField("ADditionalGuardTime", UnsignedIntegerAttributeType, 0x0004, 0, mapset.NewSetWith(Read), false, false, false, 14),
 		},
 		Access:  CreatedByOnu,
 		Support: UnknownSupport,
 		Alarms: AlarmMap{
 			0: "Low received optical power",
 			1: "High received optical power",
 			2: "Low transmit optical power",
 			3: "High transmit optical power",
 			4: "High laser bias current",
 			5: "S'/R' LOS",
 		},
 	}
 }

 // NewPhysicalPathTerminationPointReUni (class ID 314) 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 NewPhysicalPathTerminationPointReUni(params ...ParamData) (*ManagedEntity, OmciErrors) {
 	return NewManagedEntity(*physicalpathterminationpointreuniBME, 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"

	// PhysicalPathTerminationPointReUniClassID is the 16-bit ID for the OMCI
	// Managed entity Physical path termination point RE UNI
	const PhysicalPathTerminationPointReUniClassID ClassID = ClassID(314)

	var physicalpathterminationpointreuniBME *ManagedEntityDefinition

	// PhysicalPathTerminationPointReUni (class ID #314)
	// This ME represents an S'/R' interface in a mid-span PON RE that supports OEO regeneration in at
	// least one direction, where physical paths terminate and physical path level functions are
	// performed (transmit or receive).
	//
	// Such an RE automatically creates an instance of this ME for each S'/R' interface port as
	// follows.
	//
	// o When the RE has mid-span PON RE UNI interface ports built into its factory configuration.
	//
	// o When a cardholder is provisioned to expect a circuit pack of the mid-span PON RE UNI type.
	//
	// o When a cardholder provisioned for plug-and-play is equipped with a circuit pack of the midspan
	// PON RE UNI type. Note that the installation of a plug-and-play card may indicate the presence of
	// a mid-span PON RE UNI port via equipment ID as well as its type attribute, and indeed may cause
	// the management ONU to instantiate a port-mapping package to specify the ports precisely.
	//
	// The management ONU automatically deletes instances of this ME when a cardholder is neither
	// provisioned to expect a mid-span PON RE UNI circuit pack, nor is it equipped with a mid-span PON
	// RE UNI circuit pack.
	//
	// As illustrated in Figure 8.2.10-3, a PPTP RE UNI may share the physical port with an RE upstream
	// amplifier. The ONU declares a shared configuration through the port-mapping package combined
	// port table, whose structure defines one ME as the master. It is recommended that the PPTP RE UNI
	// be the master, with the RE upstream amplifier as a secondary ME.
	//
	// The administrative state, operational state and ARC attributes of the master ME override similar
	// attributes in secondary MEs associated with the same port. In the secondary ME, these attributes
	// are present, but cause no action when written and have undefined values when read. The RE
	// upstream amplifier should use its provisionable upstream alarm thresholds and should declare
	// upstream alarms as necessary; other isomorphic alarms should be declared by the PPTP RE UNI. The
	// test action should be addressed to the master ME.
	//
	// Relationships
	// An instance of this ME is associated with each instance of a mid-span PON RE S'/R' physical
	// interface of an RE that includes OEO regeneration in either direction, and it may also be
	// associated with an RE upstream amplifier.
	//
	// Attributes
	// Managed Entity Id
	// NOTE 1 - This ME ID may be identical to that of an RE upstream amplifier if it shares the same
	// physical slot and port.
	//
	// Administrative State
	// NOTE 2 - Administrative lock of a PPTP RE UNI results in loss of signal to any downstream ONUs.
	//
	// Operational State
	// Operational state: This attribute indicates whether the ME is capable of performing its
	// function. Valid values are enabled (0) and disabled (1). (R) (optional) (1-byte)
	//
	// Arc
	// ARC: See clause A.1.4.3. (R,-W) (optional) (1-byte)
	//
	// Arc Interval
	// ARC interval: See clause A.1.4.3. (R,-W) (optional) (1-byte)
	//
	// Re Ani_G Pointer
	// RE ANI-G pointer: This attribute points to an RE ANI-G instance. (R,-W) (mandatory) (2-bytes)
	//
	// Total Optical Receive Signal Level Table
	// Total optical receive signal level table: This table attribute reports a series of measurements
	// of time averaged received upstream optical signal power. The measurement circuit should have a
	// temporal response similar to a simple 1-pole low pass filter, with an effective time constant of
	// the order of a GTC frame time. Each table entry has a 2-byte frame counter field (most
	// significant end), and a 2-byte power measurement field. The frame counter field contains the
	// least significant 16-bits of the superframe counter received closest to the time of the
	// measurement. The power measurement field is a 2s complement integer referred to 1-mW (i.e.,
	// dBm), with 0.002-dB granularity. The RE equipment should add entries to this table as frequently
	// as is reasonable. The RE should clear the table once it is read by the OLT. (R) (optional) (4-*
	// N-bytes, where N is the number of measurements present.)
	//
	// Per Burst Receive Signal Level Table
	// Per burst receive signal level table: This table attribute reports the most recent measurement
	// of received burst upstream optical signal power. Each table entry has a 2-byte ONU-ID field
	// (most significant end), and a 2-byte power measurement field. The power measurement field is a
	// 2s complement integer referred to 1-mW (i.e.,-dBm), with 0.002-dB granularity. (R) (optional)
	// (4-* N-bytes, where N is the number of distinct ONUs connected to the S'/R' interface.)
	//
	// Lower Receive Optical Threshold
	// Lower receive optical threshold: This attribute specifies the optical level that the RE uses to
	// declare the burst mode low received optical power alarm. Valid values are -127-dBm (coded as
	// 254) to 0-dBm (coded as 0) in 0.5-dB increments. The default value 0xFF selects the RE's
	// internal policy. (R,-W) (optional) (1-byte)
	//
	// Upper Receive Optical Threshold
	// Upper receive optical threshold: This attribute specifies the optical level that the RE uses to
	// declare the burst mode high optical power alarm. Valid values are -127-dBm (coded as 254) to
	// 0-dBm (coded as 0) in 0.5-dB increments. The default value 0xFF selects the RE's internal
	// policy. (R,-W) (optional) (1-byte)
	//
	// Transmit Optical Level
	// Transmit optical level: This attribute reports the current measurement of the downstream mean
	// optical launch power. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with
	// 0.002-dB granularity. (R) (optional) (2-bytes)
	//
	// Lower Transmit Power Threshold
	// Lower transmit power threshold: This attribute specifies the downstream minimum mean optical
	// launch power at the S'/R' interface that the RE uses to declare the low transmit optical power
	// alarm. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with 0.5-dB
	// granularity. The default value 0x7F selects the RE's internal policy. (R,-W) (optional) (1-byte)
	//
	// Upper Transmit Power Threshold
	// Upper transmit power threshold: This attribute specifies the downstream maximum mean optical
	// launch power at the S'/R' interface that the RE uses to declare the high transmit optical power
	// alarm. Its value is a 2s complement integer referred to 1-mW (i.e., dBm), with 0.5-dB
	// granularity. The default value 0x7F selects the RE's internal policy. (R,-W) (optional) (1-byte)
	//
	// A Dditional Preamble
	// Additional preamble: This attribute indicates the number of bytes of PLOu preamble that are
	// unavoidably consumed while passing the RE. (R) (mandatory) (1-byte)
	//
	// A Dditional Guard Time
	// Additional guard time: This attribute indicates the number of bytes of extra guard time that are
	// needed to ensure correct operation with the RE. (R) (mandatory) (1-byte)
	//
	type PhysicalPathTerminationPointReUni struct {
	ManagedEntityDefinition
	Attributes AttributeValueMap
	}

	func init() {
	physicalpathterminationpointreuniBME = &ManagedEntityDefinition{
	Name: "PhysicalPathTerminationPointReUni",
	ClassID: 314,
	MessageTypes: mapset.NewSetWith(
	Get,
	GetNext,
	Set,
	),
	AllowedAttributeMask: 0xfffc,
	AttributeDefinitions: AttributeDefinitionMap{
	0: Uint16Field("ManagedEntityId", PointerAttributeType, 0x0000, 0, mapset.NewSetWith(Read), false, false, false, 0),
	1: ByteField("AdministrativeState", UnsignedIntegerAttributeType, 0x8000, 0, mapset.NewSetWith(Read, Write), false, false, false, 1),
	2: ByteField("OperationalState", UnsignedIntegerAttributeType, 0x4000, 0, mapset.NewSetWith(Read), true, true, false, 2),
	3: ByteField("Arc", UnsignedIntegerAttributeType, 0x2000, 0, mapset.NewSetWith(Read, Write), true, true, false, 3),
	4: ByteField("ArcInterval", UnsignedIntegerAttributeType, 0x1000, 0, mapset.NewSetWith(Read, Write), false, true, false, 4),
	5: Uint16Field("ReAniGPointer", UnsignedIntegerAttributeType, 0x0800, 0, mapset.NewSetWith(Read, Write), false, false, false, 5),
	6: TableField("TotalOpticalReceiveSignalLevelTable", TableAttributeType, 0x0400, TableInfo{nil, 4}, mapset.NewSetWith(Read), false, true, false, 6),
	7: TableField("PerBurstReceiveSignalLevelTable", TableAttributeType, 0x0200, TableInfo{nil, 4}, mapset.NewSetWith(Read), false, true, false, 7),
	8: ByteField("LowerReceiveOpticalThreshold", UnsignedIntegerAttributeType, 0x0100, 0, mapset.NewSetWith(Read, Write), false, true, false, 8),
	9: ByteField("UpperReceiveOpticalThreshold", UnsignedIntegerAttributeType, 0x0080, 0, mapset.NewSetWith(Read, Write), false, true, false, 9),
	10: Uint16Field("TransmitOpticalLevel", UnsignedIntegerAttributeType, 0x0040, 0, mapset.NewSetWith(Read), false, true, false, 10),
	11: ByteField("LowerTransmitPowerThreshold", UnsignedIntegerAttributeType, 0x0020, 0, mapset.NewSetWith(Read, Write), false, true, false, 11),
	12: ByteField("UpperTransmitPowerThreshold", UnsignedIntegerAttributeType, 0x0010, 0, mapset.NewSetWith(Read, Write), false, true, false, 12),
	13: ByteField("ADditionalPreamble", UnsignedIntegerAttributeType, 0x0008, 0, mapset.NewSetWith(Read), false, false, false, 13),
	14: ByteField("ADditionalGuardTime", UnsignedIntegerAttributeType, 0x0004, 0, mapset.NewSetWith(Read), false, false, false, 14),
	},
	Access: CreatedByOnu,
	Support: UnknownSupport,
	Alarms: AlarmMap{
	0: "Low received optical power",
	1: "High received optical power",
	2: "Low transmit optical power",
	3: "High transmit optical power",
	4: "High laser bias current",
	5: "S'/R' LOS",
	},
	}
	}

	// NewPhysicalPathTerminationPointReUni (class ID 314) 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 NewPhysicalPathTerminationPointReUni(params ...ParamData) (*ManagedEntity, OmciErrors) {
	return NewManagedEntity(*physicalpathterminationpointreuniBME, params...)
	}