ATM-X-MIB: View SNMP OID List / Download MIB

A list of ADSL Configuration entries

An entry in adslConfTable

This object indicates the Idx of the Config being accessed. Idx of 255 relates to the Temporary (Scratch) Config. For products that support several configurations, Set can be performed only to the Temporary Config (=255).

ADSL Frame type

This parameter controls Pilot Tone Request (PTR).

This parameter enables/disables Trellis error detection code. using error detection code may introduce delays.

This parameter controls transmision mode: Echo Cancellation is required when both ATU-C an ATU-R use the same frequency. Frequency Division (different frequency ranges for ATU-C and ATU-R) may limit data rate.

This parameter indicates standard compliance G.Lite enables extended ADSL range, ease of installation, but requires lower rate.

This parameter indicates maximum number of bits per ADSL Bin. Each Bin has bandwidth of 4khz. Range of values for this parameter is 0..15

This parameter controls Transmit Start Bin number. For ADSL Annex A - range of values is 6 to 31. For ADSL Annex B - range of values is 33 to 63. Frequency (in khz unit) is calculated by multiplying this parameter value by bin bandwidth (4Khz)

This parameter controls Transmit End Bin number. For ADSL Annex A - range of values is 6 to 31. For ADSL Annex B - range of values is 33 to 63. requency (in khz unit) is calculated by multiplying this value by bin bandwidth (4Khz)

This parameter controls Receive Start Bin number. Range of values for this parameter depends on ADSL Annex supported, and transmisson mode (adslTransmissionMode) selected: ADSL Annex A and Echo Cancellation (EC) : 6 to 255 ADSL Annex A and Frequency Division (FDM) : 32 to 255 ADSL Annex B and Echo Cancellation (EC) : 33 to 255 ADSL Annex B and Frequency Division (FDM) : 64 to 255 Frequency (in khz unit) is calculated by multiplying this value by bin bandwidth (4Khz)

This parameter controls Receive End Bin number. Range of values for this parameter depends on ADSL Annex supported, and transmisson mode (adslTransmissionMode) selected: ADSL Annex A and Echo Cancellation (EC) : 6 to 255 ADSL Annex A and Frequency Division (FDM) : 32 to 255 ADSL Annex B and Echo Cancellation (EC) : 33 to 255 ADSL Annex B and Frequency Division (FDM) : 64 to 255 Frequency (in khz unit) is calculated by multiplying this value by bin bandwidth (4Khz)

This parameter controls Transmit Gain in dB units Range is 0 to 12dB. Resolution is 1 dB

A list of Adsl Status entries

An entry in adslStatusTable

This parameter indicates actual Receive (Downstream) rate on this channel Range of values for this parameter is 0 -8,064,000 bps

A list of SDSL Configuration entries

An entry in sdslConfTable

This object indicates the Idx of the Config being accessed. Idx of 255 relates to the Temporary (Scratch) Config. For products that support several configurations, Set can be performed only to the Temporary Config (=255).

SDSL Rate Aquisition mode Default value = fixed.

SDSL baud rate. Not applicable if rate aquisition is AutoNegotiation. Default value = r144kbps

SDSL mode - COE (HTU-C) or CPE (HTU-R) Default value = COE

This notification indicates that a remote loopback has been activated on the Embedded Operations Channel (EOC) of the SHDSL link.

This table is an extension of hdsl2ShdslEndpointCurrTable of rfc3276 It contains current status and performance information for segment endpoints in HDSL2/SHDSL Lines. As with other tables in this MIB indexed by ifIndex, entries in this table MUST be maintained in a persistent manner.

An entry in the shdslEndpointCurrTable. Each entry contains status and performance information relating to a single segment endpoint. It is indexed by the ifIndex of the HDSL2/SHDSL line, the UnitId of the associated unit, the side of the unit, and the wire-pair of the associated modem.

The current receive gain in hundredth of dB.

The current transmit power in tenth of dBm.

The current transceiver actual power packoff from 0dB to 6dB.

The current line synchronization status.

The current operational state.

The time (in hundredths of a second) since the accumulated counters were last re-initialized: Accumulated counters are hdsl2ShdslEndpointES, hdsl2ShdslEndpointSES, hdsl2ShdslEndpointCRCanomalies hdsl2ShdslEndpointLOSWS, and hdsl2ShdslEndpointUAS.

This object indicates use of symmetric/asymmetric PSD (Power Spectral Density) Mask for the associated SHDSL Line.

This table supports maintenance operations (eg. loopbacks) to be performed on HDSL2/SHDSL segment endpoints. This table contains live data from equipment. As such, it is NOT persistent.

An entry in the hdsl2ShdslEndpointMaintTable. Each entry corresponds to a single segment endpoint, and is indexed by the ifIndex of the HDSL2/SHDSL line, the UnitId of the associated unit and the side of the unit.

This object configures the receiver at the associated segment endpoint to operate in default or enhanced power backoff mode. powerbackoff may also be disabled

This table supports definitions of span configuration profiles for SHDSL lines. HDSL2 does not support these configuration options. This table MUST be maintained in a persistent manner.

Each entry corresponds to a single span configuration profile. Each profile contains a set of span configuration parameters. The configuration parameters in a profile are applied to those lines referencing that profile (see the hdsl2ShdslSpanConfProfile object). Profiles may be created/deleted using the row creation/deletion mechanism via hdsl2ShdslSpanConfProfileRowStatus. If an active entry is referenced in hdsl2ShdslSpanConfProfile, the entry MUST remain active until all references are removed.

This object indicate if device supports only standard EOC messages or also proprietary messages.

This object indicates line rate when rfc3276.hdsl2ShdslSpanConfPSD value is asymmetric(2). Seleceted rate depends on transmission mode - specified in Annex A or B of G.991.2. For Annex A; R1 selects the 776 or 784 kbit/s R2 selects the 1544 or 1552 kbit/s For Annex B ; R1 selects the 2312 kbit/s R2 selects the 2056 kbit/s

This table enables configuration of HDSL2/SHDSL interfaces per configuration index. Write operation for products supporting Active+Temp configurations, is possible only on the Temp configuration(255).

An entry in the hdsl2ShdslIfConfTable.

This object indicates the Idx of the Config being accessed. Idx of 255 relates to the Temporary (Scratch) Config. Write operation for products supporting Active+Temp configurations, is allowed to Temporary configuration only.

This object indicates the Side of the managed object: Near-End or Far-End.

Maximum BW (Bandwidth) of the Shdsl Line, in Kbps units. Respective Max No. of TSs = Max. Rate/64 This object can be Set only for a Central (xtuC) unit.

This object configures the receiver at the associated segment endpoint to enable/disable power backoff mode. This object is similar to hdsl2ShdslMaintPowerBackOff, but per configuration. Therefore, the order of the enum values is the same.

This object configures the Transmission Mode for the SHDSL Line. This object can be Set only for a Central (xtuC) unit.

This object configures the Attentuation alarm threshold. 0=Off Valid values: 0..127 .

This object configures the SNR margin alarm threshold. 0=Off Valid values: 0..15 .

This object configures the way TS0 will be treated over the SHDSL Line. looped - looped inside transparent - sent transparently over the DSL Line. This object can be Set only for a Central (xtuC) unit.

This object is relevant only for the Near-End device. stuC - Central stuR - Remote .

This object configures how TSs will be compacted over the SHDSL Line. In both mapping cases (2),(3), only the TSs connected on the E1 line will be transferred over the SHDSL Line noCompaction - the whole E1 BW is reserved on the SHDSL Line, even if only part of the TSs are actually connected. noMapping - there is no mapping between the E1 TSs and the SHDSL frame TSs. Therefore, E1 connected TSs are ordered in ascending order (e.g E1 TSs 2, 16, 20 will occupy places 1, 2, 3 in SHDSL Line). In this case, if user wants to add connection for a TS that is lower than the existing ones on SHDSL, the TSs that are higher will have to move. That causes breaks in service for the moved TSs. (e.g if E1 TS8 is added in the above case, TSs 16 and 20 will move, so that by the end of this process, the E1 TSs 2, 8, 16, 20 will be ordered in SHDSL frame as 1, 2, 3, 4). withMapping - there is a mapping between the E1 TSs and the SHDSL frame TSs. Therefore, if some TSs were connected and then user wants to add additional E1 TSs, there is no need to move the existing TSs of the SHDSL frame. The additional TSs will be added AFTER the existing ones, or in gaps created by E1 TSs removed by user. The main thing is that the existing TSs will NOT be moved and so, their service will not be damaged by the addition or removal of E1 TS connections. lowTsMapping - the first 2 TSs are used for Signaling (TS16) and Dedicated TS if relevant. The payload starts afterwards, unmapped (according to E1 connected TSs order). This will ensure that Signaling and Dedicated TS will continue to function also when new TSs are connected. User will still get service breaks when TSs are moved. spareMapping - applicable only for MP-2100/2104 cards. It should be selected only when working vs. a MP-2100.2104. It resembles the noMapping option, but it contains Spare TSs for unconnected TSs. These Spare TSs will prevent service breaks upon added connections, because these will be selected from the Spare existing TSs.

Voice port ringing cadence configuration table. Each ringing cycle, indexed by voiceIfCadenceIdx, consists of a number of ring ON-Period/ring OFF-Period pairs. Pairs are indexed sequentially, according to voiceIfCadencePeriodIdx: 1,2,...number of pairs

Ringing cadence configuration per voice port.

This object indicates the Idx of the Agent Cnfg the following objects refer to. 255=Temporary Cnfg (when relevant, Set is done only to this configuration). For Agents that support only one configuration, this object will be constant=1.

Voice Port Index. May equal to the value of ifIndex.

Cadence (ringing type) index.

Periods index (pair number) in a ringing cycle Cadence. This index must be sequential, start from 1. Its maximum value is the number of pairs of certain ringing type. For Vmux-110, one or two period pairs may be defined.

This attribute allows to create/delete ringing cadence entry in this table. For Vmux-110, only a single cadance can be defined. Delete action of a period entry can be performed only if it is the last existing period of the cadance.

Duration (in tenth of seconds) of Ringing (ON) period.

Duration (in tenth of seconds) of Silence (OFF) period.

Voice port configuration table.

Configuration per voice port.

This object indicates the Idx of the Agent Cnfg the following objects refer to. 255=Temporary Cnfg (when relevant, Set is done only to this configuration). For Agents that support only one configuration, this object will be constant=1.

Index of voice port .

Ringing timeout in seconds.

A time period in milliseconds. Flash (Register Recall) is detected if On-Hook time is shorter than this timeout.

Receive gain in dB.

Transmission gain in dB.

Octet String. Nibble No. 1 represents ON Hook (same for Rx and Tx). Nibble No. 2 represents OFF Hook (same for Rx and Tx). Nibble No. 3 represents Reverse Polarity. Nibble No. 4 represents Ring pattern 1. Nibble No. 5 represents Ring pattern 2. Nibble No. 6 is not used. The bits will be as following: Bit 1 = Bit A - ON Hook (LSB) Bit 2 = Bit B - ON Hook Bit 3 = Bit C - ON Hook Bit 4 = Bit D - ON Hook Bit 5 = Bit A - OFF Hook Bit 6 = Bit B - OFF Hook Bit 7 = Bit C - OFF Hook Bit 8 = Bit D - OFF Hook Bit 9 = Bit A - Reverse Polarity Bit 10 = Bit B - Reverse Polarity Bit 11 = Bit C - Reverse Polarity Bit 12 = Bit D - Reverse Polarity Bit 13 = Bit A - Ring 1 Bit 14 = Bit B - Ring 1 Bit 15 = Bit C - Ring 1 Bit 16 = Bit D - Ring 1 Bit 17 = Bit A - Ring 2 Bit 18 = Bit B - Ring 2 Bit 19 = Bit C - Ring 2 Bit 20 = Bit D - Ring 2 Bits 21...24 = 0 (not used). (Bit 24 is MSB). For Vmux-110: Ring 1 and Ring 2 are used. The default is 3 octets. (MSB) 0000 1011 1011 1001 1011 1010 (LSB)

Attribute indicating voice port state.

Attribute indicating the status of the call on this port. In Vmux devices this attribute is used for FXS ports.

This table allows user to define several WFQ tables per output port. WFQ supports flows with different bandwidth requirements by giving each queue a weight that assigns it a different percentage of output port bandwidth. When Weighted Fair Queuing is used, it is possible to precisely attribute bandwidth partitioning among the queues. When there is congestion, each class (queue) is not allowed to use more bandwidth than the amount allocated to it.

An entry in the Weighted Fair Queueing table.

This object indicates the Idx of the Agent Cnfg the following objects refer. 255=Temporary Cnfg (when relevant, Set is done only to this configuration). For Agents that support only one configuration, this object will be constant=1.

This object indicates a unique port or interface number, for which Weighted Fair Queueing table is applicable . For numbering, see products spec. For some products, the numbering can equal ifIndex. Value of 255 (not applicable) refer to system level queue

This object indicates which Weighted Fair Queueing (WFQ) Table is being used. There can be several tables. For FCD-155 User will select which one will be used for a virtual concatenation group.Valid values are 1,2

This object indicates a queue index. For FCD-155, valid queues are 1..3. The 4th queue is not in MIB. Its weight will be RO, Calculated according to the sum of the 3 first queues.

This object enables Creation/Deletion of rows in the WFQ table. For FCD-155, rows are not created nor destroyed by user.

This object indicates a relative weight value. User should make sure that the sum of values for all queues will not exceed 100% (sum should be BELOW 100% in order to leave some BW percentage for last queue)

Mapping of DSCP value to a regenerated priority level.

An entry in dscpMappingTable.

This object indicates the Idx of the Agent Cnfg the following objects refer to. 255=Temporary Cnfg (when relevant, Set is done only to this configuration). For Agents that support only one configuration, this object will be constant=1. This object can be used to carry additional indexing (e.g port index) when needed.

DSCP value of the incoming IP packet

The Regenerated Priority level the incoming DSCP value is mapped to. For FCD-155, valid values are 0,1,2,3

The TE QOS Interface Table.

An entry in the TE QOS Interface table.

This object indicates the 1st Index of the table.

This object indicates the 2nd Index of the table.

This object indicates the 3rd Index of the table.

This object is used for QOS attributes of the entrys entities.

This table is an extension to AAL5 VCC Table.

This list contains the additional AAL5 VCC performance parameters and is indexed by ifIndex values of AAL5 interfaces and the associated VPI/VCI values.

The number of frames received via this interface.

The total number of frames transmitted out of the interface.

The number of frames that were discarded due to unsupported protocol encapsulation on this VCC.

The AAL5 Current table.

An entry in the AAL5 Current table.

The counter associated with the number of received frames, encountered by the AAL5 interface in the current 15 minute interval.

The counter associated with the number of transmitted frames, encountered by the AAL5 interface in the current 15 minute interval.

The counter associated with the number of frames that were discarded due to unsupported protocol encapsulation, encountered by the AAL5 interface in the current 15 minute interval.

The counter associated with the number of AAL5 CPCS PDUs received with CRC-32 errors, encountered by the AAL5 interface in the current 15 minute interval.

The counter associated with the number of received frames with length error, encountered by the AAL5 interface in the current 15 minute interval.

The counter associated with the number of dropped frames due to congestion, encountered by the AAL5 interface on the Receive direction in the current 15 minute interval.

The counter associated with the number of dropped frames due to congestion, encountered by the AAL5 interface on the Transmit direction in the current 15 minute interval.

The AAL5 Interval table.

An entry in the AAL5 Interval table.

A number between 1 and 96, where 1 is the most recently completed 15 minute interval and 96 is the least recently completed 15 minutes interval (assuming that all 96 intervals exist).

The counter associated with the number of received frames, encountered by the AAL5 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of transmitted frames, encountered by the AAL5 interface in in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of frames that were discarded due to unsupported protocol encapsulation, encountered by the AAL5 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of AAL5 CPCS PDUs received with CRC-32 errors, encountered by the AAL5 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of received frames with length error, encountered by the AAL5 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of dropped frames due to a congestion, encountered by the AAL5 interface on the Receive direction in one of the previous 96, individual 15 minute, intervals

The counter associated with the number of dropped frames due to a congestion, encountered by the AAL5 interface on the Transmit direction in one of the previous 96, individual 15 minute, intervals

The AAL1 Current table.

An entry in the AAL1 Current table.

The index of the AAL1 interface. It may be ifIndex.

The counter associated with the number of Discarded cells due to wrong sequence number, encountered by an AAL1 interface in the current 15 minute interval.

The counter associated with the number of Discarded cells due to bad AAL1 header error (including correctable and uncorrectable CRC, and bad parity), encountered by an AAL1 interface in the current 15 minute interval.

The counter associated with the number of events in which a SDT pointer isnt where it is expected to be, and must be reacquired, encountered by an AAL1 interface in the current 15 minute interval.

The counter associated with the number of buffer underflow events, encountered by an AAL1 interface in the current 15 minute interval.

The counter associated with the number of buffer overflow events, encountered by an AAL1 interface in the current 15 minute interval.

The AAL1 Interval table.

An entry in the AAL1 Interval table.

The index of the AAL1 interface. It may be ifIndex.

A number between 1 and 96, where 1 is the most recently completed 15 minute interval and 96 is the least recently completed 15 minutes interval (assuming that all 96 intervals exist).

The counter associated with the number of Discarded cells due to wrong sequence number, encountered by an AAL1 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of Discarded cells due to bad AAL1 header error (including correctable and uncorrectable CRC, plus bad parity), encountered by an AAL1 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of events in which a SDT pointer isnt where it is expected to be, and must be reacquired, encountered by an AAL1 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of buffer underflow events, encountered by an AAL1 interface in one of the previous 96, individual 15 minute, intervals.

The counter associated with the number of buffer overflow events, encountered by an AAL1 interface in one of the previous 96, individual 15 minute, intervals.

This table is an extension of atmfCESConfTable table.

Conceptual row in atmfCESConfTable. A new row is created in this table upon each new CES VCC creation.

This parameter defines if to use Spaced or Normal CBR. Normal - TD will be allocated from the policing range (described in ACE2002 NMS SRS). The PCR is expanded with a constant value of 30 cell/sec. Spaced - TD will be allocated from the spacing range (described in ACE2002 NMS SRS). The PCR and CDVT will be expanded as described for Normal, and the CES traffic including the OAM will be spaced out at the TDs PCR. This mode is used to prevent CDVT violation due to OAM cell insertion with the CES traffic.

This table is an extension of a table from RFC 2320: ipoaLisIfMappingTable - The ATM Logical IP Subnet Interface Mapping Table.

Conceptual row in ipoaLisIfMappingTable.

This object indicates the Mapping Type.

This parameter is applicable for atmIpoaLisIfMappingTypeIP=static(2). This parameter is the IP Address assigned by the user when applicable.

The time interval (in seconds) between sending of two InATMARP requests.

The time (in seconds) that passes until an entry is deleted, unless this entry was previously updated by a new inATMARP request or response. This variable value should be greater than the value of radAtmRtrInAtmArpInterval, so that the entry wont be deleted before an InATMARP request was sent.