SIAE-PTP-MIB

File: SIAE-PTP-MIB.mib (82219 bytes)

Imported modules

SNMPv2-SMI	SNMPv2-TC	IF-MIB
SIAE-TREE-MIB	SIAE-ALARM-MIB

Imported symbols

MODULE-IDENTITY	OBJECT-TYPE	Integer32
Unsigned32	DisplayString	RowStatus
TruthValue	TEXTUAL-CONVENTION	InterfaceIndex
siaeMib	AlarmStatus	AlarmSeverityCode

Defined Types

ClockDomainType
The Domain is identified by an integer, the domainNumber, in the range of 0 to 255. An integer value that is used to assign each PTP device to a particular domain. The following values define the valid domains. [1] Section 7.1 Domains Table 2 Value definition. --------- ------------------- 0 Default domain 1 Alternate domain 1 2 Alternate domain 2 3 Alternate domain 3 4 - 23 User-defined domains 24 - 43 Telecom Profile domains 44 - 127 User-defined domains 128 - 255 Reserved
TEXTUAL-CONVENTION
	Unsigned32	24..43

ClockProfileType
Clock Profile used. A profile is the set of allowed Precision Time Protocol (PTP) features applicable to a device.
TEXTUAL-CONVENTION
	INTEGER	default(1), telecom(2), vendorspecific(3)

ClockQualityAccuracyType
The ClockQuality as specified in section 5.3.7, 7.6.2.5 and Table 6 of [1]. The following values are not represented in the enumerated values. 0x01-0x1F Reserved 0x32-0x7F Reserved It is important to note that section 7.1.1 RFC2578 allows for gaps and enumerate values to start with zero when indicated by the protocol.
TEXTUAL-CONVENTION
	INTEGER	reserved00(1), nanoSecond25(32), nanoSecond100(33), nanoSecond250(34), microSec1(35), microSec2dot5(36), microSec10(37), microSec25(38), microSec100(39), microSec250(40), milliSec1(41), milliSec2dot5(42), milliSec10(43), milliSec25(44), milliSec100(45), milliSec250(46), second1(47), second10(48), secondGreater10(49), unknown(254), reserved255(255)

ClockQualityClassType
The ClockQuality as specified in section 5.3.7, 7.6.2.4 and Table 5 of [1]. Value Description ------ ---------------------------------------------------------- 0 Reserved to enable compatibility with future versions. 1-5 Reserved 6 Shall designate a clock that is synchronized to a primary reference time source. The timescale distributed shall be PTP. A clockClass 6 clock shall not be a slave to another clock in the domain. 7 Shall designate a clock that has previously been designated as clockClass 6 but that has lost the ability to synchronize to a primary reference time source and is in holdover mode and within holdover specifications. The timescale distributed shall be PTP. A clockClass 7 clock shall not be a slave to another clock in the domain. 8 Reserved. 9-10 Reserved to enable compatibility with future versions. 11-12 Reserved. 13 Shall designate a clock that is synchronized to an application-specific source of time. The timescale distributed shall be ARB. A clockClass 13 clock shall not be a slave to another clock in the domain. 14 Shall designate a clock that has previously been designated as clockClass 13 but that has lost the ability to synchronize to an application-specific source of time and is in holdover mode and within holdover specifications. The timescale distributed shall be ARB. A clockClass 14 clock shall not be a slave to another clock in the domain. 15-51 Reserved. 52 Degradation alternative A for a clock of clockClass 7 that is not within holdover specification. A clock of clockClass 52 shall not be a slave to another clock in the domain. 53-57 Reserved. 58 Degradation alternative A for a clock of clockClass 14 that is not within holdover specification. A clock of clockClass 58 shall not be a slave to another clock in the domain. 59-67 Reserved. 68-122 For use by alternate PTP profiles. 123-127 Reserved. 128-132 Reserved. 133-170 For use by alternate PTP profiles. 171-186 Reserved. 187 Degradation alternative B for a clock of clockClass 7 that is not within holdover specification. A clock of clockClass 187 may be a slave to another clock in the domain. 188-192 Reserved. 193 Degradation alternative B for a clock of clockClass 14 that is not within holdover specification. A clock of clockClass 193 may be a slave to another clock in the domain. 194-215 Reserved. 216-232 For use by alternate PTP profiles. 233-247 Reserved. 248 Default. This clockClass shall be used if none of the other clockClass definitions apply. 249-250 Reserved. 251 Reserved for version 1 compatibility; see Clause 18. 252-254 Reserved. 255 Shall be the clockClass of a slave-only clock; see 9.2.2. The ClockQuality as specified in section 6.4 and Table 2 of [2]. Value Description ------ ---------------------------------------------------------- 6 T-GM connected to a PRTC in locked mode (e.g. PRTC traceable to GNSS) 140 T-GM in holdover, out of holdover specification, traceable to Category 1 frequency source 150 T-GM in holdover, out of holdover specification, traceable to Category 2 frequency source 160 T-GM in holdover, out of holdover specification, traceable to Category 3 frequency source 165 T-BC in holdover, out of holdover specification, using unspecified frequency source 255 Slave only OC (does not send Announce messages)
TEXTUAL-CONVENTION
	INTEGER	0..255

ClockStateType
The clock state returned by PTP engine. Clock State Value Description -------------------------------------------------------------- Freerun state 1 The PTP clock has never been synchronized to a time source and is not in the process of synchronizing to a time source. As it relates to the PTP port state defined in [IEEE 1588], a clock is in Free-Run state if there are no PTP ports in: MASTER, PRE-MASTER, PASSIVE, UNCALIBRATED, or SLAVE states. Acquiring state 2 The PTP clock is in process of synchronizing to a time source. The duration and functionality of this state is implementation specific. This state is not required in an implementation. As it relates to the PTP port state defined in [IEEE 1588], a clock is in Acquiring state if there is a PTP port in UNCALIBRATED state. Locked state 3 The PTP clock is synchronized to a time source and is within some internal acceptable accuracy. As it relates to the PTP port state defined in [IEEE 1588], a clock is in Locked state if there is a PTP port in SLAVE state. HoldoverInSpec state 4 The PTP clock is no longer synchronized to a time source and is using information obtained while it was previously synchronized or other information sources were still available, to maintain performance within desired specification. The node may be relying solely on its own facilities for holdover or may use something like a frequency input from the network to achieve a holdover of time and/or phase. As it relates to the PTP port state defined in [IEEE 1588], a clock is in HoldoverInSpec state if there are no PTP ports in: INITIALIZING, LISTENING, UNCALIBRATED or SLAVE states, and performance is within desired specification. HoldoverOutOfSpec state 5 The PTP clock is no longer synchronized to a time source and, while it may be using information obtained while it was previously synchronized or other information sources were still available, it is unable to maintain performance within desired specification. As it relates to the PTP port state defined in [IEEE 1588], a clock is in HoldoverOutOfSpec state if there are no PTP ports in: INITIALIZING, LISTENING, UNCALIBRATED or SLAVE states, and performance is not within desired specification.
TEXTUAL-CONVENTION
	INTEGER	freerun(1), acquiring(2), locked(3), holdoverInSpec(4), holdoverOutOfSpec(5)

ClockTimeSourceType
The ClockQuality as specified in section 5.3.7, 7.6.2.6 and Table 7 of [1]. The following values are not represented in the enumerated values. 0xF0-0xFE For use by alternate PTP profiles 0xFF Reserved It is important to note that section 7.1.1 RFC2578 allows for gaps and enumerate values to start with zero when indicated by the protocol.
TEXTUAL-CONVENTION
	INTEGER	atomicClock(16), gps(32), terrestrialRadio(48), ptp(64), ntp(80), handSet(96), other(144), internalOscillator(160), reserved(255)

ClockInstanceType
The instance of the Clock of a given clock type in a given domain.
TEXTUAL-CONVENTION
	Unsigned32	0..255

ClockPPSInstanceType
The instance of the PPS (and ToD) socket.
TEXTUAL-CONVENTION
	Unsigned32	0..255

ClockPortNumber
An index identifying a specific Precision Time Protocol (PTP) port on a PTP node.
TEXTUAL-CONVENTION
	Unsigned32	0..65535

ClockPortState
This is the value of the current state of the protocol engine associated with this port. Port state Value Description ----------------------------------------------------------- initializing 1 In this state a port initializes its data sets, hardware, and communication facilities. faulty 2 The fault state of the protocol. disabled 3 The port shall not place any messages on its communication path. listening 4 The port is waiting for the announceReceiptTimeout to expire or to receive an Announce message from a master. preMaster 5 The port shall behave in all respects as though it were in the MASTER state except that it shall not place any messages on its communication path except for Pdelay_Req, Pdelay_Resp, Pdelay_Resp_Follow_Up, signaling, or management messages. master 6 The port is behaving as a master port. passive 7 The port shall not place any messages on its communication path except for Pdelay_Req, Pdelay_Resp, Pdelay_Resp_Follow_Up, or signaling messages, or management messages that are a required response to another management message uncalibrated 8 The local port is preparing to synchronize to the master port. slave 9 The port is synchronizing to the selected master port.
TEXTUAL-CONVENTION
	INTEGER	initializing(1), faulty(2), disabled(3), listening(4), preMaster(5), master(6), passive(7), uncalibrated(8), slave(9)

ClockMechanismType
The clock type based on whether End to End or peer to peer mechanisms are used. The mechanism used to calculate the Mean Path Delay as indicated in Table 9 of IEEE 1588-2008. Delay mechanism Value(hex) Specification E2E 01 The port is configured to use the delay request-response mechanism. P2P 02 The port is configured to use the peer delay mechanism. DISABLED FE The port does not implement the delay mechanism.
TEXTUAL-CONVENTION
	INTEGER	e2e(1)

ClockTimeInterval
This textual convention corresponds to the TimeInterval structure indicated in section 5.3.2 of [1]. It will be presented in the form of a character array. The TimeInterval type represents time intervals. struct TimeInterval { Integer64 scaledNanoseconds; }; The scaledNanoseconds member is the time interval expressed in units of nanoseconds and multiplied by 2**16. Positive or negative time intervals outside the maximum range of this data type shall be encoded as the largest positive and negative values of the data type, respectively. For example, 2.5 ns is expressed as 0000 0000 0002 8000 in Base16.
TEXTUAL-CONVENTION
	OCTET STRING	Size(1..255)

ClockType
The clock types as defined in the MIB module description.
TEXTUAL-CONVENTION
	INTEGER	boundaryClock(2)

PtpClockToDFormatType
This is the format used for ToD signal in input or in output direcdtion. ----------------------------------------------------------- Format Value Description ----------------------------------------------------------- telecomTimeEvent 1 telecomTimeAnnounce 2 telecomGNSSstatus 3 NMEAzda 4 ASCII format (eg: ,003157.00,01,01,1970,00,00*69) ISO8601 5 ASCII format (eg: 1970-01-01T00:32:47Z) NTP 6 ASCII format (eg: 70 001 00:30:51.000 S) Ublox 7 Not ASCII ChinaMobile 8 Not ASCII ChinaTelecom 9 Not ASCII (standard ITU G.8271 is derived from this) BCM 10 Not ASCII BCMTS 11 Not ASCII -----------------------------------------------------------
TEXTUAL-CONVENTION
	INTEGER	telecomTimeEvent(1), telecomTimeAnnounce(2), telecomGNSSstatus(3), nmeazda(4), iso8601(5), ntp(6), ublox(7), chinaMobile(8), chinaTelecom(9), bcm(10), bcmts(11)

PtpClockDataSetEntry
SEQUENCE
	ptpClockDomainIndex	ClockDomainType
	ptpClockTypeIndex	ClockType
	ptpClockInstanceIndex	ClockInstanceType
	ptpClockIdentity	OCTET STRING
	ptpClockTwoStepFlag	TruthValue
	ptpClockNumberPorts	Integer32
	ptpClockClass	ClockQualityClassType
	ptpClockAccuracy	ClockQualityAccuracyType
	ptpClockOffsetScaledLogVariance	Integer32
	ptpClockPriority1	Integer32
	ptpClockPriority2	Integer32
	ptpClockSlaveOnly	TruthValue
	ptpClockLocalPriority	INTEGER
	ptpClockRowStatus	RowStatus

PtpSpecificDataSetEntry
SEQUENCE
	ptpAdminStatus	INTEGER
	ptpStaticPortRole	TruthValue
	ptpClockState	ClockStateType
	ptpCompliance	INTEGER

PtpSpecificAlarmEntry
SEQUENCE
	ptpFreeRunningAlarm	AlarmStatus
	ptpHoldoverInSpecAlarm	AlarmStatus
	ptpHoldoverOutOfSpecAlarm	AlarmStatus

PtpCurrentDataSetEntry
SEQUENCE
	ptpCurrentStepsRemoved	Integer32
	ptpCurrentOffsetFromMaster	ClockTimeInterval
	ptpCurrentMeanPathDelay	ClockTimeInterval

PtpParentDataSetEntry
SEQUENCE
	ptpParentClockIdentity	OCTET STRING
	ptpParentPortNumber	ClockPortNumber
	ptpParentGMClockIdentity	OCTET STRING
	ptpParentGMClockClass	ClockQualityClassType
	ptpParentGMClockAccuracy	ClockQualityAccuracyType
	ptpParentGMClockOffsetScaledLogVariance	Integer32
	ptpParentGMPriority1	Integer32
	ptpParentGMPriority2	Integer32

PtpTimeDataSetEntry
SEQUENCE
	ptpTimeCurrentUTCOffset	Integer32
	ptpTimeCurrentUTCOffsetValid	TruthValue
	ptpTimeLeap59	TruthValue
	ptpTimeLeap61	TruthValue
	ptpTimeTimeTraceable	TruthValue
	ptpTimeFrequencyTraceable	TruthValue
	ptpTimescale	TruthValue
	ptpTimeTimeSource	ClockTimeSourceType

PtpClockPPSDataSetEntry
SEQUENCE
	ptpClockPPSInstanceIndex	ClockPPSInstanceType
	ptpClockPPSInstanceCapability	Unsigned32
	ptpClockPPSDirection	INTEGER
	ptpClockPPSLabel	DisplayString
	ptpClockPPSAdminStatus	INTEGER
	ptpClockPPSOffsetEnabled	TruthValue
	ptpClockPPSOffsetValue	Integer32
	ptpClockToDLabel	DisplayString
	ptpClockToDAdminStatus	INTEGER
	ptpClockToDDelay	Unsigned32
	ptpClockToDBaudrate	Unsigned32
	ptpClockToDFormat	PtpClockToDFormatType

PtpPortDataSetEntry
SEQUENCE
	ptpPortIndex	ClockPortNumber
	ptpPortClockIdentity	OCTET STRING
	ptpPortIfIndex	InterfaceIndex
	ptpPortStaticRole	INTEGER
	ptpPortAdminStatus	INTEGER
	ptpPortState	ClockPortState
	ptpPortMinDelayReqInterval	Integer32
	ptpPortLogAnnounceInterval	Integer32
	ptpPortAnnounceReceiptTimeout	Integer32
	ptpPortSyncInterval	Integer32
	ptpPortDelayMechanism	ClockMechanismType
	ptpPortVersionNumber	Integer32
	ptpPortNotSlave	TruthValue
	ptpPortLocalPriority	Integer32
	ptpPortDestMacAddress	INTEGER
	ptpPortTxAsymmetryCompensation	Integer32
	ptpPortRxAsymmetryCompensation	Integer32
	ptpPortRowStatus	RowStatus

PtpPortAlarmEntry
SEQUENCE
	ptpPortFaultyAlarm	AlarmStatus
	ptpPortInitializingAlarm	AlarmStatus
	ptpPortUncalibratedAlarm	AlarmStatus
	ptpPortListeningAlarm	AlarmStatus
	ptpPortActiveStatus	AlarmStatus

PtpPortRadioAlarmEntry
SEQUENCE
	ptpPortRadioCapacityAlarm	AlarmStatus

PtpRadioAsymmetryDataSetEntry
SEQUENCE
	ptpRadioBrIndex	Integer32
	ptpRadioOffset	Integer32

Defined Values

ptp		1.3.6.1.4.1.3373.1103.100
SIAE's Precision Time Protocol MIB. For details see: [1] IEEE Std 1588(TM)-2008, Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems, 2008. [2] Recommendation ITU-T G.8275.1/Y1369.1, Precision time protocol telecom profile for phase/time synchronization with full timing support from the network, draft 4 Apr 2014 .
MODULE-IDENTITY

ptpMibVersion		1.3.6.1.4.1.3373.1103.100.1
Numerical version of this module. The string version of this MIB have the following format: XX.YY.ZZ so, for example, the value 1 should be interpreted as 00.00.01 and the value 10001 should be interpreted as 01.00.01.
Status: current	Access: read-only
OBJECT-TYPE
	INTEGER

ptpProfileDataSet		1.3.6.1.4.1.3373.1103.100.2
OBJECT IDENTIFIER

ptpSpecificDataSet		1.3.6.1.4.1.3373.1103.100.3
OBJECT IDENTIFIER

ptpDefaultDataSet		1.3.6.1.4.1.3373.1103.100.4
OBJECT IDENTIFIER

ptpCurrentDataSet		1.3.6.1.4.1.3373.1103.100.5
OBJECT IDENTIFIER

ptpParentDataSet		1.3.6.1.4.1.3373.1103.100.6
OBJECT IDENTIFIER

ptpTimePropertiesDataSet		1.3.6.1.4.1.3373.1103.100.7
OBJECT IDENTIFIER

ptpPortDataSet		1.3.6.1.4.1.3373.1103.100.8
OBJECT IDENTIFIER

ptpClockPPSDataSet		1.3.6.1.4.1.3373.1103.100.9
OBJECT IDENTIFIER

ptpRadioAsymmetryDataSet		1.3.6.1.4.1.3373.1103.100.10
OBJECT IDENTIFIER

ptpSystemProfile		1.3.6.1.4.1.3373.1103.100.2.1
This object specifies the PTP Profile implemented on the system.
Status: current	Access: read-only
OBJECT-TYPE
	ClockProfileType

ptpProfileName		1.3.6.1.4.1.3373.1103.100.2.2
This object describes the PTP Profile implemented on the system.
Status: current	Access: read-only
OBJECT-TYPE
	DisplayString	Size(0..128)

ptpProfilePrimaryVersion		1.3.6.1.4.1.3373.1103.100.2.3
The version of the profile consist of two fields: a primaryVersion and a revisionNumber. The profileVersion shall be printed as primaryVersion.revisionNumber
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..65535

ptpProfileRevisionNumber		1.3.6.1.4.1.3373.1103.100.2.4
The version of the profile consist of two fields: a primaryVersion and a revisionNumber. The profileVersion shall be printed as primaryVersion.revisionNumber
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..255

ptpProfileIdentifier		1.3.6.1.4.1.3373.1103.100.2.5
This object show the PTP Profile version on the system.
Status: current	Access: read-only
OBJECT-TYPE
	OCTET STRING	Size(6)

ptpClockDataSetTable		1.3.6.1.4.1.3373.1103.100.4.1
Table of information about the PTP clock Default Datasets for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpClockDataSetEntry

ptpClockDataSetEntry		1.3.6.1.4.1.3373.1103.100.4.1.1
Contains the information of the clock on a particular doamin. This table will be initialised with default values if the clock is operating as a boundary or ordinary clock in the domain.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpClockDataSetEntry

ptpClockDomainIndex		1.3.6.1.4.1.3373.1103.100.4.1.1.1
This object specifies the domain number used to create logical group of PTP devices. The Clock Domain is a logical group of clocks and devices that synchronize with each other using the PTP protocol.
Status: current	Access: read-only
OBJECT-TYPE
	ClockDomainType

ptpClockTypeIndex		1.3.6.1.4.1.3373.1103.100.4.1.1.2
This object specifies the clock type as defined in the Textual convention description.
Status: current	Access: read-only
OBJECT-TYPE
	ClockType

ptpClockInstanceIndex		1.3.6.1.4.1.3373.1103.100.4.1.1.3
This object specifies the instance of the Clock for this clock type for the given domain.
Status: current	Access: read-only
OBJECT-TYPE
	ClockInstanceType	0..255

ptpClockIdentity		1.3.6.1.4.1.3373.1103.100.4.1.1.4
This is the unique identity of the local clock or management node. This should be the smptpDomainClockIdentity of the domain indicated by the ptpDomainNumber. Configuration of this value will take effect only when the PTP module is enabled.
Status: current	Access: read-only
OBJECT-TYPE
	OCTET STRING	Size(8)

ptpClockTwoStepFlag		1.3.6.1.4.1.3373.1103.100.4.1.1.5
This value is TRUE if the clock is two step clock, otherwise it is FALSE. If this value is configured as TRUE, then PTP will transmit the originTimeStamp only through follow-up messages.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpClockNumberPorts		1.3.6.1.4.1.3373.1103.100.4.1.1.6
This indicates the number of PTP ports on the device. For an ordinary clock this value should be 1.
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	1..128

ptpClockClass		1.3.6.1.4.1.3373.1103.100.4.1.1.7
This object specifies the default dataset Quality Class.
Status: current	Access: read-only
OBJECT-TYPE
	ClockQualityClassType

ptpClockAccuracy		1.3.6.1.4.1.3373.1103.100.4.1.1.8
This object specifies the default dataset Quality Accurarcy.
Status: current	Access: read-only
OBJECT-TYPE
	ClockQualityAccuracyType

ptpClockOffsetScaledLogVariance		1.3.6.1.4.1.3373.1103.100.4.1.1.9
This value is an estimate of the variations of the local clock from a linear timescale when it is not synchronized to another clock using the protocol. The initialization value depends on the inherent characteristics of the clock during initialization. This value is used by the BMC algorithm to select the best master clock
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..65535

ptpClockPriority1		1.3.6.1.4.1.3373.1103.100.4.1.1.10
This value is used by BMC algorithm to select the best master clock. Lower values take precedence.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	128

ptpClockPriority2		1.3.6.1.4.1.3373.1103.100.4.1.1.11
This value is used by BMC algorithm to select the best master clock. This is used as a tiebreaker when the BMC failes to order the clock using ptpClockPriority1, ptpClockClass, ptpClockAccuracy and ptpClockOffsetScaledLogVariance. Lower values take precedence
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	1..255

ptpClockSlaveOnly		1.3.6.1.4.1.3373.1103.100.4.1.1.12
Configuring this value as true will make the clock to behave as slave clock. A boundary clock can not be a slave only clock.
Status: current	Access: read-create
OBJECT-TYPE
	TruthValue

ptpClockLocalPriority		1.3.6.1.4.1.3373.1103.100.4.1.1.13
This attribute is used in the alternate BMCA as a tie-breaker in the dataset comparison algorithm, in the event that all other previous attributes of the datasets being compared are equal.
Status: current	Access: read-create
OBJECT-TYPE
	INTEGER	1..255

ptpClockRowStatus		1.3.6.1.4.1.3373.1103.100.4.1.1.14
RowStatus for creating the entries into this table. This object support only destroy and createAndGo values.
Status: current	Access: read-create
OBJECT-TYPE
	RowStatus

ptpSpecificDataSetTable		1.3.6.1.4.1.3373.1103.100.3.1
Table of vendor specific information about the PTP clock for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpSpecificDataSetEntry

ptpSpecificDataSetEntry		1.3.6.1.4.1.3373.1103.100.3.1.1
Contains vendor specific information for a particular PTP clock. Where not otherwise specified, every object of this entry can be modified with the conceptual row active.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpSpecificDataSetEntry

ptpAdminStatus		1.3.6.1.4.1.3373.1103.100.3.1.1.1
This object states if PTP is enabled or disabled for this PTP Clock in order to switch on/off the PTP protocol.
Status: current	Access: read-write
OBJECT-TYPE
	INTEGER	down(1), up(2)

ptpStaticPortRole		1.3.6.1.4.1.3373.1103.100.3.1.1.2
This object states that in the PTP Clock the A-BMCA is disabled and it is working in Static PTP Port Role mode.
Status: current	Access: read-write
OBJECT-TYPE
	TruthValue

ptpClockState		1.3.6.1.4.1.3373.1103.100.3.1.1.3
This object shows the current state of the PTP Clock State Machine
Status: current	Access: read-only
OBJECT-TYPE
	ClockStateType

ptpCompliance		1.3.6.1.4.1.3373.1103.100.3.1.1.4
This object states if the clock is strictly profile compliant. The meaning of looseCompatibility is application dependent.
Status: current	Access: read-write
OBJECT-TYPE
	INTEGER	strictCompatibility(1), looseCompatibility(2)

ptpSpecificAlarmTable		1.3.6.1.4.1.3373.1103.100.3.2
Table of vendor specific information about the PTP clock for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpSpecificAlarmEntry

ptpSpecificAlarmEntry		1.3.6.1.4.1.3373.1103.100.3.2.1
Contains vendor specific alarm information for a particular PTP clock.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpSpecificAlarmEntry

ptpFreeRunningAlarm		1.3.6.1.4.1.3373.1103.100.3.2.1.1
This alarm is raised when ptpClockState is set to freerun(1).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpHoldoverInSpecAlarm		1.3.6.1.4.1.3373.1103.100.3.2.1.2
This alarm is raised when ptpClockState is set to holdoverInSpec(4).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpHoldoverOutOfSpecAlarm		1.3.6.1.4.1.3373.1103.100.3.2.1.3
This alarm is raised when ptpClockState is set to holdoverOutOfSpec(5).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpFreeRunningAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.3.3
This object defines the severity associated to ptpFreeRunningAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpHoldoverInSpecAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.3.4
This object defines the severity associated to ptpHoldoverInSpecAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpHoldoverOutOfSpecAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.3.5
This object defines the severity associated to ptpHoldoverOutOfSpecAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpCurrentDataSetTable		1.3.6.1.4.1.3373.1103.100.5.1
Table of information about the PTP clock Current Datasets for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpCurrentDataSetEntry

ptpCurrentDataSetEntry		1.3.6.1.4.1.3373.1103.100.5.1.1
Contains synchronization information on a particular domain.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpCurrentDataSetEntry

ptpCurrentStepsRemoved		1.3.6.1.4.1.3373.1103.100.5.1.1.1
This object specifies the distance measured by the number of Boundary clocks between the local clock and the Foreign master as indicated in the stepsRemoved field of Announce messages. Slave clock will update this field once port is selected as slave.
Status: current	Access: read-only
OBJECT-TYPE
	Integer32

ptpCurrentOffsetFromMaster		1.3.6.1.4.1.3373.1103.100.5.1.1.2
This object specifies the current clock dataset ClockOffset value. The value of the computation of the offset in time between a slave and a master clock.
Status: current	Access: read-only
OBJECT-TYPE
	ClockTimeInterval

ptpCurrentMeanPathDelay		1.3.6.1.4.1.3373.1103.100.5.1.1.3
This object specifies the current clock dataset MeanPathDelay value. The mean path delay between a pair of ports as measure by the delay request-response mechanism.
Status: current	Access: read-only
OBJECT-TYPE
	ClockTimeInterval

ptpParentDataSetTable		1.3.6.1.4.1.3373.1103.100.6.1
Table of information about the PTP clock Parent Datasets for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpParentDataSetEntry

ptpParentDataSetEntry		1.3.6.1.4.1.3373.1103.100.6.1.1
Contains parent clock information on a particular domain.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpParentDataSetEntry

ptpParentClockIdentity		1.3.6.1.4.1.3373.1103.100.6.1.1.1
This is the clock identity of the port on the master that issues sync messages used in synchronizing this clock. The initial value of this field is the value of ptpClockIdentity
Status: current	Access: read-only
OBJECT-TYPE
	OCTET STRING	Size(8)

ptpParentPortNumber		1.3.6.1.4.1.3373.1103.100.6.1.1.2
This is the port number identity of the port on the master that issues sync message used in synchronizing this clock. Combination of ptpParentClockIdentity and ptpParentPortNumber gives the port identity of the parent clock.
Status: current	Access: read-only
OBJECT-TYPE
	ClockPortNumber

ptpParentGMClockIdentity		1.3.6.1.4.1.3373.1103.100.6.1.1.3
This is the clock identity attribute of the grand master clock. The initial value is ptpClockIdentity.
Status: current	Access: read-only
OBJECT-TYPE
	OCTET STRING	Size(8)

ptpParentGMClockClass		1.3.6.1.4.1.3373.1103.100.6.1.1.4
This is the clock class of the grandmaster. The initialization value of this variable is ptpClockClass.
Status: current	Access: read-only
OBJECT-TYPE
	ClockQualityClassType

ptpParentGMClockAccuracy		1.3.6.1.4.1.3373.1103.100.6.1.1.5
This is the clock accuracy of the grandmaster. The initialization value of this variable is ptpClockAccuracy
Status: current	Access: read-only
OBJECT-TYPE
	ClockQualityAccuracyType

ptpParentGMClockOffsetScaledLogVariance		1.3.6.1.4.1.3373.1103.100.6.1.1.6
This is the offset scaled log variance of the grandmaster. The initialization value of this variable is ptpClockOffsetScaledLogVariance
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..65535

ptpParentGMPriority1		1.3.6.1.4.1.3373.1103.100.6.1.1.7
This is the priority1 of the grandmaster clock. The initialization value of this variable is ptpClockPriority1
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..255

ptpParentGMPriority2		1.3.6.1.4.1.3373.1103.100.6.1.1.8
This is the priority2 of the grandmaster clock. The initialization value of this variable is ptpClockPriority2
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..255

ptpTimeDataSetTable		1.3.6.1.4.1.3373.1103.100.7.1
Table of information about the PTP clock Timeproperties Datasets for all domains.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpTimeDataSetEntry

ptpTimeDataSetEntry		1.3.6.1.4.1.3373.1103.100.7.1.1
Contains parent Time properties information of the clock on a particular domain.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpTimeDataSetEntry

ptpTimeCurrentUTCOffset		1.3.6.1.4.1.3373.1103.100.7.1.1.1
If systems epoch is the PTP epoch then this value indicates the offset in seconds between TAI and UTC.
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	0..65535

ptpTimeCurrentUTCOffsetValid		1.3.6.1.4.1.3373.1103.100.7.1.1.2
Value of this variable is TRUE if the ptpTimeCurrentUTCOffset is known to be correct.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimeLeap59		1.3.6.1.4.1.3373.1103.100.7.1.1.3
If the systems epoch is PTP epoch then TRUE value of this variable indicates that the last minute of the current UTC day contains 59 seconds.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimeLeap61		1.3.6.1.4.1.3373.1103.100.7.1.1.4
If the systems epoch is PTP epoch then TRUE value of this variable indicates that the last minute of the current UTC day contains 61 seconds.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimeTimeTraceable		1.3.6.1.4.1.3373.1103.100.7.1.1.5
This variable is TRUE if the timescale and value of ptpTimeCurrentUTCOffset are traceable to a primary reference otherwise, the value shall be FALSE.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimeFrequencyTraceable		1.3.6.1.4.1.3373.1103.100.7.1.1.6
This variable is TRUE if the frequecy determining the timescale is traceable to a primary reference otherwise, the value shall be FALSE.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimescale		1.3.6.1.4.1.3373.1103.100.7.1.1.7
This variable is TRUE if the clock timescale of the grandmaster clock is PTP otherwise, the value shall be FALSE.
Status: current	Access: read-only
OBJECT-TYPE
	TruthValue

ptpTimeTimeSource		1.3.6.1.4.1.3373.1103.100.7.1.1.8
This is the source of time used by the grandmaster clock. If the time source is known at the time of initialization then the value will be set to that otherwise the initial value is INTERNAL_OSCILLATOR(160).
Status: current	Access: read-only
OBJECT-TYPE
	ClockTimeSourceType

ptpClockPPSDataSetTable		1.3.6.1.4.1.3373.1103.100.9.1
Table of information about the PTP clock PPS and ToD properties.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpClockPPSDataSetEntry

ptpClockPPSDataSetEntry		1.3.6.1.4.1.3373.1103.100.9.1.1
Contains PPS and ToD properties information of the specific domain and clock on a specific PPS socket.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpClockPPSDataSetEntry

ptpClockPPSInstanceIndex		1.3.6.1.4.1.3373.1103.100.9.1.1.1
This object specifies the id of PPS interface socket. It represents the id of ToD interface socket too.
Status: current	Access: read-write
OBJECT-TYPE
	ClockPPSInstanceType

ptpClockPPSInstanceCapability		1.3.6.1.4.1.3373.1103.100.9.1.1.2
This object is a bitmap and each bit represents a specific capability of the PPS or ToD interface. Bit 0 : 1 = the interface can be used either in input or in output and the user can select the direction using ptpClockPPSDirection object; 0 = the interface can have one direction specified by the system, in this case the ptpClockPPSDirection object is read only. Bit 1 : 1 = the ToD interface allows more baudrate; 0 = the ToD interface allows one only baudrate, fixed by system.
Status: current	Access: read-only
OBJECT-TYPE
	Unsigned32

ptpClockPPSDirection		1.3.6.1.4.1.3373.1103.100.9.1.1.3
This object specifies the direction (input or output) of PPS signal and ToD data
Status: current	Access: read-write
OBJECT-TYPE
	INTEGER	input(1), output(2)

ptpClockPPSLabel		1.3.6.1.4.1.3373.1103.100.9.1.1.4
This object specifies the label as appears near the PPS signal socket
Status: current	Access: read-only
OBJECT-TYPE
	DisplayString	Size(0..16)

ptpClockPPSAdminStatus		1.3.6.1.4.1.3373.1103.100.9.1.1.5
This object is the administrive status of PPS interface and specifies whether the node is enabled for PTP input/output clocking using the PPS interface.
Status: current	Access: read-write
OBJECT-TYPE
	INTEGER	down(1), up(2)

ptpClockPPSOffsetEnabled		1.3.6.1.4.1.3373.1103.100.9.1.1.6
This object specifies whether an offset is configured in order to compensate for a known phase error such as network asymmetry.
Status: current	Access: read-write
OBJECT-TYPE
	TruthValue

ptpClockPPSOffsetValue		1.3.6.1.4.1.3373.1103.100.9.1.1.7
This object specifies the fixed offset signed value in nanoseconds configured to be added for the PPS output or input.
Status: current	Access: read-write
OBJECT-TYPE
	Integer32

ptpClockToDLabel		1.3.6.1.4.1.3373.1103.100.9.1.1.8
This object specifies the label as appears near the ToD socket
Status: current	Access: read-only
OBJECT-TYPE
	DisplayString	Size(0..16)

ptpClockToDAdminStatus		1.3.6.1.4.1.3373.1103.100.9.1.1.9
This object is the administrive status of PPS interface and specifies whether the ToD interface is enabled.
Status: current	Access: read-write
OBJECT-TYPE
	INTEGER	down(1), up(2)

ptpClockToDDelay		1.3.6.1.4.1.3373.1103.100.9.1.1.10
This object specifies microseconds of delay between PPS edge and ToD data emitted, used only in output direction.
Status: current	Access: read-write
OBJECT-TYPE
	Unsigned32	0..999999

ptpClockToDBaudrate		1.3.6.1.4.1.3373.1103.100.9.1.1.11
This object specifies the Baudrate of ToD signal in input or output direction.
Status: current	Access: read-write
OBJECT-TYPE
	Unsigned32	300 | 600 | 1200 | 1800 | 2400 | 4800 | 9600 | 19200 | 38400 | 57600 | 115200 | 230400

ptpClockToDFormat		1.3.6.1.4.1.3373.1103.100.9.1.1.12
This object specifies the format of ToD signal in input or output direction.
Status: current	Access: read-write
OBJECT-TYPE
	PtpClockToDFormatType

ptpPortDataSetTable		1.3.6.1.4.1.3373.1103.100.8.1
Table Contains PTP configuration information for a particular port of boundary or an ordinary clock
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpPortDataSetEntry

ptpPortDataSetEntry		1.3.6.1.4.1.3373.1103.100.8.1.1
Contains PTP configuration information for a particular port. Valid ptpPortIfIndex need to be given to make this entry active. Where not otherwise specified, every object of this entry can be modified with the conceptual row active.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpPortDataSetEntry

ptpPortIndex		1.3.6.1.4.1.3373.1103.100.8.1.1.1
The index value used to identify the port component on the device. The value of this object is used as a port index to the ptpPortConfigDataSetTable.
Status: current	Access: read-only
OBJECT-TYPE
	ClockPortNumber

ptpPortClockIdentity		1.3.6.1.4.1.3373.1103.100.8.1.1.2
This is the clock Identity of the port
Status: current	Access: read-only
OBJECT-TYPE
	OCTET STRING	Size(8)

ptpPortIfIndex		1.3.6.1.4.1.3373.1103.100.8.1.1.3
This is the index in ifTable of this port. This object can't be modified.
Status: current	Access: read-create
OBJECT-TYPE
	InterfaceIndex

ptpPortStaticRole		1.3.6.1.4.1.3373.1103.100.8.1.1.4
Role of this port. This object forces the role of the port if ptpStaticPortRole is true.
Status: current	Access: read-create
OBJECT-TYPE
	INTEGER	master(6), passive(7), slave(9)

ptpPortAdminStatus		1.3.6.1.4.1.3373.1103.100.8.1.1.5
Administrive status of the port. The value down turns off the PTP protocol on the ethernet port.
Status: current	Access: read-create
OBJECT-TYPE
	INTEGER	down(1), up(2)

ptpPortState		1.3.6.1.4.1.3373.1103.100.8.1.1.6
This denotes the PTP State of the PTP port as computed by the PTP State event machine. initializing: While a port is in the INITIALIZING state, the port initializes its data sets, hardware, and communication facilities. No port of the clock shall place any PTP messages on its communication path. If one port of a boundary clock is in the INITIALIZING state, then all ports shall be in the INITIALIZING state. faulty: The fault state of the protocol. A port in this state shall not place any PTP messages except for management messages that are a required response to another management message on its communication path. disabled: The port shall not place any messages on its communication path. In a boundary clock, no activity at the port shall be allowed to affect the activity at any other port of the boundary clock. A port in this state shall discard all PTP received messages except for management messages. listening: The port is waiting for the announceReceiptTimeout to expire or to receive an Announce message from a master. The purpose of this state is to allow orderly addition of clocks to a domain. A port in this state shall not place any PTP messages on its communication path except for Pdelay_Req, Pdelay_Resp, Pdelay_Resp_Follow_Up, or signaling messages, or management messages that are a required response to another management message. premaster: The port shall behave in all respects as though it were in the MASTER state except that it shall not place any messages on its communication path except for Pdelay_Req, Pdelay_Resp, Pdelay_Resp_Follow_Up, signaling or management messages. master: The port is behaving as a master port. It will periodically send announce and sync messages. passive: The port shall not place any messages on its communication path except for Pdelay_Req, Pdelay_Resp, Pdelay_Resp_Follow_Up, or signaling messages or management messages that are a required response to another management message. uncalibrated: This is a transient state to allow initialization of synchronization servos, updating of data sets when a new master port has been selected, and other implementation-specific activity. slave: The port is synchronizing to the selected master port.
Status: current	Access: read-only
OBJECT-TYPE
	ClockPortState

ptpPortMinDelayReqInterval		1.3.6.1.4.1.3373.1103.100.8.1.1.7
This is the log to the base 2 of the delay request interval in seconds. This speifies the time to the members devices to send delay request messages when the port is in the master. It specify the minimum permitted mean time interval between successive Delay_Req messages, min delay request interval value is a compromise between the fluctuation in link delay and startup time and the communication and computation load imposed by transmission of these messages.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	-7..7

ptpPortLogAnnounceInterval		1.3.6.1.4.1.3373.1103.100.8.1.1.8
This is the log to the base 2 of the mean Announce message interval in seconds.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	-3..6

ptpPortAnnounceReceiptTimeout		1.3.6.1.4.1.3373.1103.100.8.1.1.9
This is the Announce receipt time out value. This should be an integral multiple of announce interval in seconds
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	3..10

ptpPortSyncInterval		1.3.6.1.4.1.3373.1103.100.8.1.1.10
This is the logarithm to the base 2 of the sync message interval in seconds
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	-7..0

ptpPortDelayMechanism		1.3.6.1.4.1.3373.1103.100.8.1.1.11
This indicates the propagation delay measuring option used by the port in computing meanpathDelay.
Status: current	Access: read-only
OBJECT-TYPE
	ClockMechanismType

ptpPortVersionNumber		1.3.6.1.4.1.3373.1103.100.8.1.1.12
This indicates the PTP version in use on the port.
Status: current	Access: read-only
OBJECT-TYPE
	Integer32	2

ptpPortNotSlave		1.3.6.1.4.1.3373.1103.100.8.1.1.13
This attribute is used in the alternate BMCA to prevent that a port can be placed in the SLAVE state.
Status: current	Access: read-create
OBJECT-TYPE
	TruthValue

ptpPortLocalPriority		1.3.6.1.4.1.3373.1103.100.8.1.1.14
This attribute is used in the alternate BMCA as a tie-breaker in the dataset comparison algorithm, in the event that all other previous attributes of the datasets being compared are equal.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	1..255

ptpPortDestMacAddress		1.3.6.1.4.1.3373.1103.100.8.1.1.15
This attribute is used in to select the destination MAC address inserted in the outgoing packets: forwardable: 01-1B-19-00-00-00 nonForwardable: 01-80-C2-00-00-0E
Status: current	Access: read-create
OBJECT-TYPE
	INTEGER	forwardable(1), nonForwardable(2)

ptpPortTxAsymmetryCompensation		1.3.6.1.4.1.3373.1103.100.8.1.1.16
This attribute is used to compensate in nanoseconds the asymmetric delay. It works in TX direction.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	-32768..32767

ptpPortRxAsymmetryCompensation		1.3.6.1.4.1.3373.1103.100.8.1.1.17
This attribute is used to compensate in nanoseconds the asymmetric delay. It works in RX direction.
Status: current	Access: read-create
OBJECT-TYPE
	Integer32	-32768..32767

ptpPortRowStatus		1.3.6.1.4.1.3373.1103.100.8.1.1.18
RowStatus for creating the entries into this table. This object can't be modified.
Status: current	Access: read-create
OBJECT-TYPE
	RowStatus

ptpPortAlarmTable		1.3.6.1.4.1.3373.1103.100.8.2
Table Contains PTP alarm information for a particular port of boundary or an ordinary clock.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpPortAlarmEntry

ptpPortAlarmEntry		1.3.6.1.4.1.3373.1103.100.8.2.1
Contains PTP alarm information for a particular port.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpPortAlarmEntry

ptpPortFaultyAlarm		1.3.6.1.4.1.3373.1103.100.8.2.1.1
This alarm is raised when ptpPortState is set to faulty(2).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortInitializingAlarm		1.3.6.1.4.1.3373.1103.100.8.2.1.2
This alarm is raised when ptpPortState is set to initializing(1).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortUncalibratedAlarm		1.3.6.1.4.1.3373.1103.100.8.2.1.3
This alarm is raised when ptpPortState is set to uncalibrated(8).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortListeningAlarm		1.3.6.1.4.1.3373.1103.100.8.2.1.4
This alarm is raised when ptpPortState is set to listening(4).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortActiveStatus		1.3.6.1.4.1.3373.1103.100.8.2.1.5
This alarm is raised when ptpPortState is set to slave(9).
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortRadioAlarmTable		1.3.6.1.4.1.3373.1103.100.8.3
Table Contains PTP alarm information for a radio port of boundary or an ordinary clock.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpPortRadioAlarmEntry

ptpPortRadioAlarmEntry		1.3.6.1.4.1.3373.1103.100.8.3.1
Contains PTP alarm information for a radio port.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpPortRadioAlarmEntry

ptpPortRadioCapacityAlarm		1.3.6.1.4.1.3373.1103.100.8.3.1.1
This alarm is raised when the capacity of a radio link is not big enough to transport PTP packets.
Status: current	Access: read-only
OBJECT-TYPE
	AlarmStatus

ptpPortFaultyAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.8.4
This object defines the severity associated to ptpPortFaultyAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpPortInitializingAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.8.5
This object defines the severity associated to ptpPortInitializingAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpPortUncalibratedAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.8.6
This object defines the severity associated to ptpPortUncalibratedAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpPortListeningAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.8.7
This object defines the severity associated to ptpPortListeningAlarm and enables or disables the sending of the SNMP Trap on the alarm status transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpPortActiveStatusSeverityCode		1.3.6.1.4.1.3373.1103.100.8.8
This object enables or disables the sending of the SNMP Trap on ptpPortActiveStatus transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpPortRadioCapacityAlarmSeverityCode		1.3.6.1.4.1.3373.1103.100.8.9
This object enables or disables the sending of the SNMP Trap on ptpPortRadioCapacityAlarm transition.
Status: current	Access: read-write
OBJECT-TYPE
	AlarmSeverityCode

ptpRadioAsymmetryDataSetTable		1.3.6.1.4.1.3373.1103.100.10.1
Table contains delay offset for asymmetries compensation for the Radio unit.
Status: current	Access: not-accessible
OBJECT-TYPE
	SEQUENCE OF
		PtpRadioAsymmetryDataSetEntry

ptpRadioAsymmetryDataSetEntry		1.3.6.1.4.1.3373.1103.100.10.1.1
Each ntry contains delay offset for asymmetries compensation for a specific Radio unit.
Status: current	Access: not-accessible
OBJECT-TYPE
	PtpRadioAsymmetryDataSetEntry

ptpRadioBrIndex		1.3.6.1.4.1.3373.1103.100.10.1.1.1
This is the index in radioTable of this unit. This object can't be modified.
Status: current	Access: read-only
OBJECT-TYPE
	Integer32

ptpRadioOffset		1.3.6.1.4.1.3373.1103.100.10.1.1.2
This object is an offset in nanoseconds for asymmetry compensation and can have both positive and negative values.
Status: current	Access: read-write
OBJECT-TYPE
	Integer32	-32768..32767

Generation date: July 28, 2023, 16:18:13, Copyright © 2007 - 2022 - Circitor