--**************************************************************************** -- -- Copyright (c) 2002-2011 Broadcom Corporation -- -- This program is the proprietary software of Broadcom Corporation and/or -- its licensors, and may only be used, duplicated, modified or distributed -- pursuant to the terms and conditions of a separate, written license -- agreement executed between you and Broadcom (an "Authorized License"). -- Except as set forth in an Authorized License, Broadcom grants no license -- (express or implied), right to use, or waiver of any kind with respect to -- the Software, and Broadcom expressly reserves all rights in and to the -- Software and all intellectual property rights therein. IF YOU HAVE NO -- AUTHORIZED LICENSE, THEN YOU HAVE NO RIGHT TO USE THIS SOFTWARE IN ANY WAY, -- AND SHOULD IMMEDIATELY NOTIFY BROADCOM AND DISCONTINUE ALL USE OF THE -- SOFTWARE. -- -- Except as expressly set forth in the Authorized License, -- -- 1. 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TO THE MAXIMUM EXTENT PERMITTED BY LAW, IN NO EVENT SHALL BROADCOM -- OR ITS LICENSORS BE LIABLE FOR (i) CONSEQUENTIAL, INCIDENTAL, SPECIAL, -- INDIRECT, OR EXEMPLARY DAMAGES WHATSOEVER ARISING OUT OF OR IN ANY WAY -- RELATING TO YOUR USE OF OR INABILITY TO USE THE SOFTWARE EVEN IF BROADCOM -- HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES; OR (ii) ANY AMOUNT IN -- EXCESS OF THE AMOUNT ACTUALLY PAID FOR THE SOFTWARE ITSELF OR U.S. $1, -- WHICHEVER IS GREATER. THESE LIMITATIONS SHALL APPLY NOTWITHSTANDING ANY -- FAILURE OF ESSENTIAL PURPOSE OF ANY LIMITED REMEDY. -- --**************************************************************************** -- Filename: brcm-cm-engineering.mib -- Author: Kevin O'Neal -- Creation Date: 22-october-2002 -- --**************************************************************************** -- Description: -- -- private MIB for cablemodem factory -- --**************************************************************************** -- Revision History: -- --**************************************************************************** BRCM-CM-ENGINEERING-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Integer32, Unsigned32 FROM SNMPv2-SMI TruthValue, RowPointer FROM SNMPv2-TC TenthdBmV, TenthdB FROM DOCS-IF-MIB cableDataEngineering FROM BRCM-CABLEDATA-ENGINEERING-MIB cmDsCalOffsetIndex FROM BRCM-CM-FACTORY-MIB; cablemodemEngineering MODULE-IDENTITY LAST-UPDATED "201104140000Z" ORGANIZATION "Broadcom Corporation" CONTACT-INFO " BANANA-CABLEDATA (cableData branch of the Broadcom Assigned Numbers and Naming Authority) Broadcom Corporation Postal: 4385 River Green Parkway Duluth, GA 30096 USA Tel: +1 770 232-0018 E-mail: banana-cabledata@broadcom.com" DESCRIPTION "Broadcom proprietary MIB for management and configuration of cablemodem objects used in engineering and development." REVISION "201104140000Z" DESCRIPTION "Added object cmDsCalPhySymbolRate." REVISION "201010200000Z" DESCRIPTION "Updated value ranges on cmDsCalTunerIndex, cmDsCalPhyTuner and cmDsCalPhyTunerChannel." REVISION "200910060000Z" DESCRIPTION "Added cmEngrBpi objects. Removed DEFVAL from cmDsCalTunerType object to fix compiler warning." REVISION "200904030000Z" DESCRIPTION "Added object cmUsCalDiplexer." REVISION "200811030000Z" DESCRIPTION "Added objects cmDsCalPhyFrequency and cmDsCalPhyFrequencyError." REVISION "200809230000Z" DESCRIPTION "Added cmDsCalTunerTable and cmDsCalPhyTable in support of systems which support multiple DS phys per tuner." REVISION "200702050000Z" DESCRIPTION "Module description was updated. Compilability issues were cleaned up: - Chronological order of revision history was corrected. - Revision dates were updated to post-Y2K format. - Range restrictions were added to objects cmDsCalTunerCoefIndex, cmDsCalIFCoefIndex, cmDsCalFineCoefIndex, cmDsCalEqCoefIndex, and cmUsCalControlIndex." REVISION "200306230000Z" DESCRIPTION "Added objects to allow dynamic population and de-population of the downstream and upstream calibration tables in order to provide more efficient RAM management when performing downstream and upstream CM characterization." REVISION "200304240000Z" DESCRIPTION "Added cmDsCalFrequencyError object." REVISION "200301030000Z" DESCRIPTION "Added cmHwSTABW2 object." REVISION "200212230000Z" DESCRIPTION "Added AGC control objects. Ho, Ho, Ho." REVISION "200212110000Z" DESCRIPTION "Added more DS cal objects to control and report the results of the CM DS characterization routine." REVISION "200211110000Z" DESCRIPTION "Added objects for 33xx hardware control in cmEngrBase and populated cmEngrUpstreamCalibration." REVISION "200210220000Z" DESCRIPTION "Initial version of this MIB module." ::= { cableDataEngineering 2 } -- cmEngrBase: miscellaneous control/state objects for engineering mode cmEngrBase OBJECT IDENTIFIER ::= { cablemodemEngineering 1 } cmEngr33xxOpcode OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The hardware address or multibyte opcode to access in a 33xx family device when executing a cmEngr33xxCommand operation." ::= { cmEngrBase 1 } cmEngr33xxData OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-write STATUS current DESCRIPTION "The data read from or to be written to a 33xx family device when executing a cmEngr33xxCommand operation." ::= { cmEngrBase 2 } cmEngr33xxCommand OBJECT-TYPE SYNTAX INTEGER { read(0), write(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this value to read(0) will cause a read operation to be executed on the multibyte opcode specified in cmEngr33xxOpcode. The data read back from the operation will be presented in cmEngr33xxData. Setting this value to write(1) will cause the data in cmEngr33xxData to be written via the multibyte opcode specified in cmEngr33xxOpcode." ::= { cmEngrBase 3 } -- cmEngrDownstreamCalibration: used to characterize a family of devices, -- typically not necessary for manufacturing of individual units. cmEngrDownstreamCalibration OBJECT IDENTIFIER ::= { cablemodemEngineering 2 } -- -- Tuner Coeficient objects -- cmDsCalZeroTunerCoefs OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to true(1) will result in all writable objects in the cmDsCalTunerCoefTable being set to zero. Sets to false(2) will be accepted, but will not result in any action being taken. Reading this object always returns false(2)." ::= { cmEngrDownstreamCalibration 1 } cmDsCalNumTunerCoefs OBJECT-TYPE SYNTAX Unsigned32 (1..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the number of tuner coefficients per downstream frequency in the cmDsCalTunerCoefTable. Note that the total number of entries in this table will be the value of cmDsCalNumOffsets (from the BRCM-CM-FACTORY-MIB) multiplied by this value. If this value is changed, then the cmDsCalTunerCoefTable will be destroyed and rebuilt with the new number of coefficients, but all coefficient values will be set to zero." ::= { cmEngrDownstreamCalibration 2 } cmDsCalTunerCoefTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalTunerCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of tuner coeffiencents to be used when calculating downstream power for this device." ::= { cmEngrDownstreamCalibration 3 } cmDsCalTunerCoefEntry OBJECT-TYPE SYNTAX CmDsCalTunerCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry defining a tuner coefficient for a given frequency at the given index for this device." INDEX { cmDsCalOffsetIndex, cmDsCalTunerCoefIndex } ::= { cmDsCalTunerCoefTable 1 } CmDsCalTunerCoefEntry ::= SEQUENCE { cmDsCalTunerCoefIndex Integer32, cmDsCalTunerCoefFrequency Integer32, cmDsCalTunerCoefValue Unsigned32, cmDsCalTunerCoefCopyFrom Integer32 } cmDsCalTunerCoefIndex OBJECT-TYPE SYNTAX Integer32 (1..128) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this tuner coefficient." ::= { cmDsCalTunerCoefEntry 1 } cmDsCalTunerCoefFrequency OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The downstream frequency at which this instance of cmDsCalTunerCoefValue applies. This read-only object is provided here for convenience. Value is identical to the value of the read-write object cmDsCalOffsetFrequency which may be changed in engineering mode if necessary. Changes made to cmDsCalOffsetFrequency will be reflected here immediately." REFERENCE "docsIfDownChannelFrequency from DOCS-IF-MIB" ::= { cmDsCalTunerCoefEntry 2 } cmDsCalTunerCoefValue OBJECT-TYPE SYNTAX Unsigned32 (0..1000000) UNITS "millionth" MAX-ACCESS read-write STATUS current DESCRIPTION "The value of this tuner coefficient multiplied by one million. For example, a tuner coefficient value of 0.218369 would be represented as 218369. This gives a Since tuner coefficients must range in value between zero and one, this object will always have a value of between zero (0.000000) and one million (1.000000). Precision is 1e-6." ::= { cmDsCalTunerCoefEntry 3 } cmDsCalTunerCoefCopyFrom OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to the value of the first element of an index of a row in this table will cause all coefficients for this frequency to be copied from the corresponding location in the frequency pointed to by the index specified. For example, if cmDsCalTunerCoefCopyFrom.1.1 is set to 2, then cmDsCalTunerCoefValue.1.1 through cmDsCalTunerCoefCopyFrom.1.n will be copied from cmDsCalTunerCoefCopyFrom.2.1 through cmDsCalTunerCoefCopyFrom.2.n. Reading this object will always return 0." ::= { cmDsCalTunerCoefEntry 4 } -- -- IF (Intermediate Frequency) Coeficient objects -- cmDsCalZeroIFCoefs OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to true(1) will result in all writable objects in the cmDsCalIFCoefTable being set to zero. Sets to false(2) will be accepted, but will not result in any action being taken. Reading this object always returns false(2)." ::= { cmEngrDownstreamCalibration 4 } cmDsCalNumIFCoefs OBJECT-TYPE SYNTAX Unsigned32 (1..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the number of IF coefficients per downstream frequency in the cmDsCalIFCoefTable. Note that the total number of entries in this table will be the value of cmDsCalNumOffsets (from the BRCM-CM-FACTORY-MIB) multiplied by this value. If this value is changed, then the cmDsCalIFCoefTable will be destroyed and rebuilt with the new number of coefficients, but all coefficient values will be set to zero." ::= { cmEngrDownstreamCalibration 5 } cmDsCalIFCoefTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalIFCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of intermediate frequency coeffiencents to be used when calculating downstream power for this device." ::= { cmEngrDownstreamCalibration 6 } cmDsCalIFCoefEntry OBJECT-TYPE SYNTAX CmDsCalIFCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry defining an IF coefficient for a given frequency at the given index for this device." INDEX { cmDsCalOffsetIndex, cmDsCalIFCoefIndex } ::= { cmDsCalIFCoefTable 1 } CmDsCalIFCoefEntry ::= SEQUENCE { cmDsCalIFCoefIndex Integer32, cmDsCalIFCoefFrequency Integer32, cmDsCalIFCoefValue Integer32, cmDsCalIFCoefCopyFrom Integer32 } cmDsCalIFCoefIndex OBJECT-TYPE SYNTAX Integer32 (1..128) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this IF coefficient." ::= { cmDsCalIFCoefEntry 1 } cmDsCalIFCoefFrequency OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The downstream frequency at which this instance of cmDsCalIFCoefValue applies. This read-only object is provided here for convenience. Value is identical to the value of the read-write object cmDsCalOffsetFrequency which may be changed in engineering mode if necessary. Changes made to cmDsCalOffsetFrequency will be reflected here immediately." REFERENCE "docsIfDownChannelFrequency from DOCS-IF-MIB" ::= { cmDsCalIFCoefEntry 2 } cmDsCalIFCoefValue OBJECT-TYPE SYNTAX Integer32 UNITS "hundred-thousandth" MAX-ACCESS read-write STATUS current DESCRIPTION "The value of this IF coefficient multiplied by one hundred thousand. For example, an IF coefficent value of -2662.94 would be represented as -266294000. This gives an effective range of IF coefficent values ranging from -21474.83647 to 21474.83647 and a precision of 1e-5" ::= { cmDsCalIFCoefEntry 3 } cmDsCalIFCoefCopyFrom OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to the value of the first element of an index of a row in this table will cause all coefficients for this frequency to be copied from the corresponding location in the frequency pointed to by the index specified. For example, if cmDsCalIFCoefCopyFrom.1.1 is set to 2, then cmDsCalIFCoefValue.1.1 through cmDsCalIFCoefCopyFrom.1.n will be copied from cmDsCalIFCoefCopyFrom.2.1 through cmDsCalIFCoefCopyFrom.2.n. Reading this object will always return 0." ::= { cmDsCalIFCoefEntry 4 } -- -- Fine Coeficient objects -- cmDsCalZeroFineCoefs OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to true(1) will result in all writable objects in the cmDsCalFineCoefTable being set to zero. Sets to false(2) will be accepted, but will not result in any action being taken. Reading this object always returns false(2)." ::= { cmEngrDownstreamCalibration 7 } cmDsCalNumFineCoefs OBJECT-TYPE SYNTAX Unsigned32 (1..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the number of Fine coefficients per downstream frequency in the cmDsCalFineCoefTable. Note that the total number of entries in this table will be the value of cmDsCalNumOffsets (from the BRCM-CM-FACTORY-MIB) multiplied by this value. If this value is changed, then the cmDsCalFineCoefTable will be destroyed and rebuilt with the new number of coefficients, but all coefficient values will be set to zero." ::= { cmEngrDownstreamCalibration 8 } cmDsCalFineCoefTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalFineCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of Fine coeffiencents to be used when calculating downstream power for this device." ::= { cmEngrDownstreamCalibration 9 } cmDsCalFineCoefEntry OBJECT-TYPE SYNTAX CmDsCalFineCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry defining a Fine coefficient for a given frequency at the given index for this device." INDEX { cmDsCalOffsetIndex, cmDsCalFineCoefIndex } ::= { cmDsCalFineCoefTable 1 } CmDsCalFineCoefEntry ::= SEQUENCE { cmDsCalFineCoefIndex Integer32, cmDsCalFineCoefFrequency Integer32, cmDsCalFineCoefValue Integer32, cmDsCalFineCoefCopyFrom Integer32 } cmDsCalFineCoefIndex OBJECT-TYPE SYNTAX Integer32 (1..128) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this Fine coefficient." ::= { cmDsCalFineCoefEntry 1 } cmDsCalFineCoefFrequency OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The downstream frequency at which this instance of cmDsCalFineCoefValue applies. This read-only object is provided here for convenience. Value is identical to the value of the read-write object cmDsCalOffsetFrequency which may be changed in engineering mode if necessary. Changes made to cmDsCalOffsetFrequency will be reflected here immediately." REFERENCE "docsIfDownChannelFrequency from DOCS-IF-MIB" ::= { cmDsCalFineCoefEntry 2 } cmDsCalFineCoefValue OBJECT-TYPE SYNTAX Integer32 UNITS "millionth" MAX-ACCESS read-write STATUS current DESCRIPTION "The value of this fine coefficient multiplied by one million. For example, a fine coefficent value of 36.5494 would be represented as 36549400. This gives an effective range of fine coefficent values ranging from -2147.483647 to 2147.483647 and a precision of 1e-6." ::= { cmDsCalFineCoefEntry 3 } cmDsCalFineCoefCopyFrom OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to the value of the first element of an index of a row in this table will cause all coefficients for this frequency to be copied from the corresponding location in the frequency pointed to by the index specified. For example, if cmDsCalFineCoefCopyFrom.1.1 is set to 2, then cmDsCalFineCoefValue.1.1 through cmDsCalFineCoefCopyFrom.1.n will be copied from cmDsCalFineCoefCopyFrom.2.1 through cmDsCalFineCoefCopyFrom.2.n. Reading this object will always return 0." ::= { cmDsCalFineCoefEntry 4 } -- -- Equalizer Coeficient objects -- cmDsCalZeroEqCoefs OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to true(1) will result in all writable objects in the cmDsCalEqualizerCoefTable being set to zero. Sets to false(2) will be accepted, but will not result in any action being taken. Reading this object always returns false(2)." ::= { cmEngrDownstreamCalibration 10 } cmDsCalNumEqCoefs OBJECT-TYPE SYNTAX Unsigned32 (1..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the number of equalizer coefficients per downstream frequency in the cmDsCalEqualizerCoefTable. Note that the total number of entries in this table will be the value of cmDsCalNumOffsets (from the BRCM-CM-FACTORY-MIB) multiplied by this value. If this value is changed, then the cmDsCalEqualizerCoefTable will be destroyed and rebuilt with the new number of coefficients, but all coefficient values will be set to zero." ::= { cmEngrDownstreamCalibration 11 } cmDsCalEqCoefTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalEqCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of equalizer coeffiencents to be used when calculating downstream power for this device." ::= { cmEngrDownstreamCalibration 12 } cmDsCalEqCoefEntry OBJECT-TYPE SYNTAX CmDsCalEqCoefEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry defining a equalizer coefficient for a given frequency at the given index for this device." INDEX { cmDsCalOffsetIndex, cmDsCalEqCoefIndex } ::= { cmDsCalEqCoefTable 1 } CmDsCalEqCoefEntry ::= SEQUENCE { cmDsCalEqCoefIndex Integer32, cmDsCalEqCoefFrequency Integer32, cmDsCalEqCoefValue Integer32, cmDsCalEqCoefCopyFrom Integer32 } cmDsCalEqCoefIndex OBJECT-TYPE SYNTAX Integer32 (1..128) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this equalizer coefficient." ::= { cmDsCalEqCoefEntry 1 } cmDsCalEqCoefFrequency OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "The downstream frequency at which this instance of cmDsCalEqCoefValue applies. This read-only object is provided here for convenience. Value is identical to the value of the read-write object cmDsCalOffsetFrequency which may be changed in engineering mode if necessary. Changes made to cmDsCalOffsetFrequency will be reflected here immediately." REFERENCE "docsIfDownChannelFrequency from DOCS-IF-MIB" ::= { cmDsCalEqCoefEntry 2 } cmDsCalEqCoefValue OBJECT-TYPE SYNTAX Integer32 UNITS "hundred-thousandth" MAX-ACCESS read-write STATUS current DESCRIPTION "The value of this equalizer coefficient multiplied by one hundred thousand. For example, an equalizer coefficent value of 4287.95 would be represented as 428795000. This gives an effective range of equalizer coefficent values ranging from -21474.83647 to 21474.83647 and a precision of 1e-5." ::= { cmDsCalEqCoefEntry 3 } cmDsCalEqCoefCopyFrom OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to the value of the first element of an index of a row in this table will cause all coefficients for this frequency to be copied from the corresponding location in the frequency pointed to by the index specified. For example, if cmDsCalEqCoefCopyFrom.1.1 is set to 2, then cmDsCalEqCoefValue.1.1 through cmDsCalEqCoefCopyFrom.1.n will be copied from cmDsCalEqCoefCopyFrom.2.1 through cmDsCalEqCoefCopyFrom.2.n. Reading this object will always return 0." ::= { cmDsCalEqCoefEntry 4 } cmDsCalNumLDAIxReads OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the number of times the LDAIx registers will be read before doing the power calculations. It will average the register values." ::= { cmEngrDownstreamCalibration 13 } cmDsCalLDAIxReadInterval OBJECT-TYPE SYNTAX Unsigned32 (0..255) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the time (in milliseconds) between each read of the LDAIx registers." ::= { cmEngrDownstreamCalibration 14 } cmDsCalTunerStep OBJECT-TYPE SYNTAX Unsigned32 (0..800) UNITS "hundredth dBmV" MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the step size (in dBmV) that was used when sampling the tuner table. This influences how the data is interpolated when calculating the tuner gain part of actual power level." ::= { cmEngrDownstreamCalibration 15 } cmDsCalMasterPowerOffset OBJECT-TYPE SYNTAX Integer32 (-32700..32700) UNITS "hundredth dBmV" MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the master offset power value (in dBmV) for the modem. Each frequency band in the table has an offset power adjustment that is applied to this value when calculating the actual power level." ::= { cmEngrDownstreamCalibration 16 } cmDsCalCharacterizeNow OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the CM will execute its DS characterization routine using the frequency specified by cmDsCalFrequency, and the modulation type specified by cmDsCalModulation. Prior to executing the DS characterization routine, cmDsCalLockNow must have been set to true(1) and the lock must have been successful, as indicated by cmDsCalQamLocked and cmDsCalFecLocked both being true(1). The SET operation will not return until the routine is complete, so the SNMP manager's timeout value may need to be increased to several seconds. Once the DS characterization is complete, the resulting data may be read from the objects cmDsCalNormalLDAIT, cmDsCalNormalLDAIF, cmDsCalNormalLDAII, cmDsCalFrozenLDAIT, cmDsCalFrozenLDAIF, cmDsCalFrozenLDAII, cmDsCalFGain, cmDsCalTGain, and cmDsCalIGain. Always returns false(2) when read." ::= { cmEngrDownstreamCalibration 17 } cmDsCalNormalLDAIT OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAIT register after executing the 'normal' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 18 } cmDsCalNormalLDAIF OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAIF register after executing the 'normal' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 19 } cmDsCalNormalLDAII OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAII register after executing the 'normal' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 20 } cmDsCalFrozenLDAIT OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAIT register after executing the 'frozen' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 21 } cmDsCalFrozenLDAIF OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAIF register after executing the 'frozen' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 22 } cmDsCalFrozenLDAII OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the contents of the LDAII register after executing the 'frozen' portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 23 } cmDsCalFGainTap OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the value of the equalizer main tap after executing the F-Gain portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 24 } cmDsCalTGainTap OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the value of the equalizer main tap after executing the T-Gain portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 25 } cmDsCalIGainTap OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "Shows the value of the equalizer main tap after executing the I-Gain portion of the CM DS characterization routine." ::= { cmEngrDownstreamCalibration 26 } cmDsCalFrequencyError OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "Reports the amount of frequency error in the downstream signal." ::= { cmEngrDownstreamCalibration 27 } cmDsCalTunerCoefTablePopulate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the downstream tuner coefficient data will be loaded into the cmDsCalTunerCoefTable. If the table is already populated, it will be flushed and re-populated. If the amount of RAM available on the device becomes low while populating the table, an error code of RESOURCE UNAVAILABLE will be returned, and the table population will be incomplete. Setting this object to false(2) will flush the cmDsCalTunerCoefTable. When read, this object indicates the current state of the cmDsCalTunerCoefTable. A value of true(1) indicates that the table was successfully populated. A value of false(2) indicates that the table is either unpopulated, or that insufficient RAM was available to complete the population and that the table is incomplete." ::= { cmEngrDownstreamCalibration 28 } cmDsCalIFCoefTablePopulate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the downstream intermediate frequency coefficient data will be loaded into the cmDsCalIFCoefTable. If the table is already populated, it will be flushed and re-populated. If the amount of RAM available on the device becomes low while populating the table, an error code of RESOURCE UNAVAILABLE will be returned, and the table population will be incomplete. Setting this object to false(2) will flush the cmDsCalIFCoefTable. When read, this object indicates the current state of the cmDsCalIFCoefTable. A value of true(1) indicates that the table was successfully populated. A value of false(2) indicates that the table is either unpopulated, or that insufficient RAM was available to complete the population and that the table is incomplete." ::= { cmEngrDownstreamCalibration 29 } cmDsCalFineCoefTablePopulate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the downstream fine coefficient data will be loaded into the cmDsCalFineCoefTable. If the table is already populated, it will be flushed and re-populated. If the amount of RAM available on the device becomes low while populating the table, an error code of RESOURCE UNAVAILABLE will be returned, and the table population will be incomplete. Setting this object to false(2) will flush the cmDsCalFineCoefTable. When read, this object indicates the current state of the cmDsCalFineCoefTable. A value of true(1) indicates that the table was successfully populated. A value of false(2) indicates that the table is either unpopulated, or that insufficient RAM was available to complete the population and that the table is incomplete." ::= { cmEngrDownstreamCalibration 30 } cmDsCalEqCoefTablePopulate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the downstream equalizer coefficient data will be loaded into the cmDsCalEqCoefTable. If the table is already populated, it will be flushed and re-populated. If the amount of RAM available on the device becomes low while populating the table, an error code of RESOURCE UNAVAILABLE will be returned, and the table population will be incomplete. Setting this object to false(2) will flush the cmDsCalEqCoefTable. When read, this object indicates the current state of the cmDsCalEqCoefTable. A value of true(1) indicates that the table was successfully populated. A value of false(2) indicates that the table is either unpopulated, or that insufficient RAM was available to complete the population and that the table is incomplete." ::= { cmEngrDownstreamCalibration 31 } cmDsCalTunerTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalTunerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table used to control all tuners present on this device." ::= { cmEngrDownstreamCalibration 32 } cmDsCalTunerEntry OBJECT-TYPE SYNTAX CmDsCalTunerEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry used to control an individual tuner." INDEX { cmDsCalTunerIndex } ::= { cmDsCalTunerTable 1 } CmDsCalTunerEntry ::= SEQUENCE { cmDsCalTunerIndex Integer32, cmDsCalTunerType INTEGER, cmDsCalTunerNumChannels Integer32, cmDsCalTunerFrequency Integer32, cmDsCalTunerTuneNow TruthValue } cmDsCalTunerIndex OBJECT-TYPE SYNTAX Integer32 (1..8) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this tuner." ::= { cmDsCalTunerEntry 1 } cmDsCalTunerType OBJECT-TYPE SYNTAX INTEGER { temic473x(1), temic4937(2), celISG2000(3), celISG2000EU(4), celISG3300(5), celISG3300EU(6), celISG3300DS(7), celISG3300DSEU(8), panasonicET10(9), panasonicET03(10), alps(11), bcm3400(12), temic4706(13), bcm3415(14), -- not for use in North America alpsEU(15), philips1236(16), vendor(17), bcm3416(18), bcm3419(19), bcm3418(20), bcm3420(21), bcm3421(22), bcm3422(23), bcmInternal(24) } MAX-ACCESS read-only STATUS current DESCRIPTION "Identifies the type of this tuner." ::= { cmDsCalTunerEntry 2 } cmDsCalTunerNumChannels OBJECT-TYPE SYNTAX Integer32 (1..5) MAX-ACCESS read-only STATUS current DESCRIPTION "Identifies the maximum number of downstream channels which may be tuned by this tuner in this application. Note that the value of this object depends on the annex mode, because in Annex A each channel is 8MHz in width, whereas in Annex B each channel is 6MHz in width." ::= { cmDsCalTunerEntry 3 } cmDsCalTunerFrequency OBJECT-TYPE SYNTAX Integer32 (0..1000000000) UNITS "hertz" MAX-ACCESS read-write STATUS current DESCRIPTION "The center frequency to which this tuner will tune when cmDsCalTunerTuneNow is set to true(1). Note that a read of this object does NOT necessarily indicate that the CM is currently tuned to the indicated frequency, since the CM will not tune until cmDsCalTunerTuneNow is set to true(1)." REFERENCE "docsIfDownChannelFrequency from DOCS-IF-MIB" ::= { cmDsCalTunerEntry 4 } cmDsCalTunerTuneNow OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When this object is set to true(1), the tuner will tune to the frequency specified by cmDsCalTunerFrequency. Sets to false(2) will be rejected with an inconsistentValue error. taken. When read, this object returns true(1) if the tuner is currently tuned to the specified frequency, false(2) otherwise." ::= { cmDsCalTunerEntry 5 } cmDsCalPhyTable OBJECT-TYPE SYNTAX SEQUENCE OF CmDsCalPhyEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table which allows control over each individual downstream phy block present on the device." ::= { cmEngrDownstreamCalibration 33 } cmDsCalPhyEntry OBJECT-TYPE SYNTAX CmDsCalPhyEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry allowing control over an individual downstream phy block." INDEX { cmDsCalPhyIndex } ::= { cmDsCalPhyTable 1 } CmDsCalPhyEntry ::= SEQUENCE { cmDsCalPhyIndex Integer32, cmDsCalPhyTuner Integer32, cmDsCalPhyTunerChannel Integer32, cmDsCalPhyModulation INTEGER, cmDsCalPhyLockNow TruthValue, cmDsCalPhyQamLocked TruthValue, cmDsCalPhyFecLocked TruthValue, cmDsCalPhySignalNoise TenthdB, cmDsCalPhyPower TenthdBmV, cmDsCalPhyFrequency Integer32, cmDsCalPhyFrequencyError Integer32, cmDsCalPhySymbolRate Integer32 } cmDsCalPhyIndex OBJECT-TYPE SYNTAX Integer32 (1..12) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this phy block." ::= { cmDsCalPhyEntry 1 } cmDsCalPhyTuner OBJECT-TYPE SYNTAX Integer32 (1..8) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls which tuner from the cmDsCalTunerTable this phy is mapped to." ::= { cmDsCalPhyEntry 2 } cmDsCalPhyTunerChannel OBJECT-TYPE SYNTAX Integer32 (-8..8) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls which channel of the tuner identified by cmDsCalPhyTuner is mapped to this phy. Values are defined as offsets from the center channel of the tuner, which is represented by a value of 0 for this object. Note that allowable values for this object are constrained by the value of cmDsCalTunerNumChannels for the tuner specified by cmDsCalPhyTuner. A value of 0 - denoting the exact center channel - is only valid if cmDsCalTunerNumChannels is odd. For even values of cmDsCalTunerNumChannels, locking to the exact center frequency will not be possible." ::= { cmDsCalPhyEntry 3 } cmDsCalPhyModulation OBJECT-TYPE SYNTAX INTEGER { qam64(3), qam256(4), qam1024(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The modulation type that the CM will attempt to lock under when cmDsCalPhyLockNow is set to true. Note that a read of this object does NOT necessarily indicate that the CM is currently locked under the indicated modulation, since the CM will not attempt to lock until cmDsCalPhyLockNow is set to true. The enumerated values for this object begin at 3 for consistency with the docsIfDownChannelModulation values." REFERENCE "docsIfDownChannelModulation from DOCS-IF-MIB" ::= { cmDsCalPhyEntry 4 } cmDsCalPhyLockNow OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When this object is set to true(1), the CM will attempt to lock the downstream phy according to the parameters specified by the values of cmDsCalTunerCenterFrequency, cmDsCalPhyTuner, cmDsCalPhyTunerChannel, and cmDsCalPhyModulation. Note that prior to setting this object, the instance of cmDsCalTunerTuneNow corresponding to the value of cmDsCalPhyTuner must have previously been set to true(1). Sets of this object to false(2) will be rejected with an inconsistentValue error. When read, this object returns false(2) if no lock has been attempted, and true(1) if a lock has been attempted. The success or failure of an attempted lock is indicated by the values of objects cmDsCalPhyQamLocked and cmDsCalPhyFecLocked." ::= { cmDsCalPhyEntry 5 } cmDsCalPhyQamLocked OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the last set of cmDsCalPhyLockNow to true resulted in the phy acheiving QAM lock. The value of this object is reset whenever cmDsCalPhyLockNow is set to true, and its value will always indicate the result of the last attempt to lock." ::= { cmDsCalPhyEntry 6 } cmDsCalPhyFecLocked OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates whether the last set of cmDsCalPhyLockNow to true resulted in the phy acheiving FEC lock. The value of this object is reset whenever cmDsCalPhyLockNow is set to true, and its value will always indicate the result of the last attempt to lock." ::= { cmDsCalPhyEntry 7 } cmDsCalPhySignalNoise OBJECT-TYPE SYNTAX TenthdB UNITS "TenthdB" MAX-ACCESS read-only STATUS current DESCRIPTION "Signal/Noise ratio as perceived for this phy." REFERENCE "Data-Over-Cable Service Interface Specifications: Radio Frequency Interface Specification SP-RFIv2.0-I10-051209, Tables 4-1 and 4-2" ::= { cmDsCalPhyEntry 8 } cmDsCalPhyPower OBJECT-TYPE SYNTAX TenthdBmV UNITS "dBmV" MAX-ACCESS read-only STATUS current DESCRIPTION "The received power level for this phy." REFERENCE "Data-Over-Cable Service Interface Specifications: Radio Frequency Interface Specification SP-RFIv2.0-I10-051209, Tables 6-16, 6-17." ::= { cmDsCalPhyEntry 9 } cmDsCalPhyFrequency OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "Reports the frequency to which this phy is locked. The value of this object will reflect the frequency as calculated according to the settings of cmDsCalPhyTuner and cmDsCalPhyTuner, and does not include the frequency error as reported by cmDsCalPhyFrequencyError. If cmDsCalPhyLockNow has not been set to true(1) then this object will report a value of 0." ::= { cmDsCalPhyEntry 10 } cmDsCalPhyFrequencyError OBJECT-TYPE SYNTAX Integer32 UNITS "hertz" MAX-ACCESS read-only STATUS current DESCRIPTION "Reports the frequency error for this phy. The actual frequency to which the phy is locked will be the sum of the value of this object and cmDsCalPhyFrequency. If cmDsCalPhyLockNow has not been set to true(1) then this object will report a value of 0." ::= { cmDsCalPhyEntry 11 } cmDsCalPhySymbolRate OBJECT-TYPE SYNTAX Integer32 UNITS "symbols per second" MAX-ACCESS read-only STATUS current DESCRIPTION "Reports the downstream symbol rate for this phy. If cmDsCalPhyLockNow has not been set to true(1) then this object will report a value of 0." ::= { cmDsCalPhyEntry 12 } --- --- Upstream Calibration engineering objects --- cmEngrUpstreamCalibration OBJECT IDENTIFIER ::= { cablemodemEngineering 3 } cmUsCalControlStartPower OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "dBmV" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the starting power used in the cmUsCalControlTable. Changing this value will result in the size of the cmUsCalControlTable being altered." ::= { cmEngrUpstreamCalibration 1 } cmUsCalControlEndPower OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "dBmV" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the ending power used in the cmUsCalControlTable. Changing this value will result in the size of the cmUsCalControlTable being altered." ::= { cmEngrUpstreamCalibration 2 } cmUsCalControlResolution OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "hundredth dBmV" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the resolution used in the cmUsCalControlTable. Changing this value will result in the size of the cmUsCalControlTable being altered." ::= { cmEngrUpstreamCalibration 3 } cmUsCalZeroControl OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "If set to true(1), all instances of cmUsCalControlAmpGain and cmUsCalControlDacAtten in the cmUsCalControlTable will be set to a value of zero. When read, always returns false." ::= { cmEngrUpstreamCalibration 4 } cmUsCalControlTable OBJECT-TYPE SYNTAX SEQUENCE OF CmUsCalControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of control values to be used when calculating upstream power for this device." ::= { cmEngrUpstreamCalibration 5 } cmUsCalControlEntry OBJECT-TYPE SYNTAX CmUsCalControlEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry defining the control values for a given power at the given index for this device." INDEX { cmUsCalControlIndex } ::= { cmUsCalControlTable 1 } CmUsCalControlEntry ::= SEQUENCE { cmUsCalControlIndex Integer32, cmUsCalControlPower Integer32, cmUsCalControlAmpGain Unsigned32, cmUsCalControlDacAtten Unsigned32 } cmUsCalControlIndex OBJECT-TYPE SYNTAX Integer32 (1..128) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Identifies the instance of this pair of control values." ::= { cmUsCalControlEntry 1 } cmUsCalControlPower OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "hundredth dBmV" MAX-ACCESS read-only STATUS current DESCRIPTION "Indicates the upstream power level which is expected when the amp gain and DAC attenuation are programmed as indicated in this entry. This value is read-only, its value depends on the values set in cmUsCalControlStartPower, cmUsCalControlEndPower, and cmUsCalControlResolution." ::= { cmUsCalControlEntry 2 } cmUsCalControlAmpGain OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the amplifier gain setting used to produce an output power equal to the value of this entry's instance of cmUsCalControlPower." ::= { cmUsCalControlEntry 3 } cmUsCalControlDacAtten OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the DAC attenuation setting used to produce an output power equal to the value of this entry's instance of cmUsCalControlPower." ::= { cmUsCalControlEntry 4 } cmUsCalOffsetStartFreq OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "megahertz" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the starting frequency used in the cmUsCalOffsetTable. Changing this value will result in the size of the cmUsCalOffsetTable being altered." ::= { cmEngrUpstreamCalibration 6 } cmUsCalOffsetEndFreq OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "megahertz" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the ending frequency used in the cmUsCalOffsetTable. Changing this value will result in the size of the cmUsCalOffsetTable being altered." ::= { cmEngrUpstreamCalibration 7 } cmUsCalOffsetResolution OBJECT-TYPE SYNTAX Integer32 (0..255) UNITS "hundredth megahertz (10 kHz)" MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the resolution used in the cmUsCalOffsetTable. Changing this value will result in the size of the cmUsCalControlTable being altered." ::= { cmEngrUpstreamCalibration 8 } cmUsCalBoardType OBJECT-TYPE SYNTAX INTEGER { genericUnknownDontCare(0), bcm93350AV2US(1), bcm93350AV3US(2), bcm93350CV0US(3), bcm93350iV1aUS(4), bcm93350iV1bUS(5), bcm93350VV1US(6), bcm93352VV0US(7), bcm93350AV2Euro(8), bcm93350AV3Euro(9), bcm93350CV0Euro(10), bcm93350iV1aEuro(11), bcm93350iV1bEuro(12), bcm93350VV1Euro(13), bcm93352VV0Euro(14), bcm93350CV2US(15), bcm93350CV2Euro(16), bcm93345I(17), bcm93345A(18) } MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the board revision that the tables have been calibrated for; it helps the app warn the user about incorrect configurations (loading a table that has been calibrated for a different modem). These values are the same as those found in the HAL non-vol settings." DEFVAL { genericUnknownDontCare } ::= { cmEngrUpstreamCalibration 9 } cmUsCalAmpType OBJECT-TYPE SYNTAX INTEGER { lucentATTV4910(1), lucentATTV4911(2), celISG2000(3), anadigicsARA5050(4), adi8321(5), maxim3510(6), celISG3300(7), adi8322(8), broadcomInternal(9) } MAX-ACCESS read-write STATUS current DESCRIPTION "Sets the upstream amp that the tables have been calibrated for; it helps the app warn the user about incorrect configurations. These values are the same as those found in the HAL non-vol settings." DEFVAL { broadcomInternal } ::= { cmEngrUpstreamCalibration 10 } cmUsCalAmpGain OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the current value of the amplifier gain, an 8 bit hardware value." ::= { cmEngrUpstreamCalibration 11 } cmUsCalDacAtten OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the current value of the DAC attenuator, an 8 bit hardware value." ::= { cmEngrUpstreamCalibration 12 } cmUsCalTransmitNow OBJECT-TYPE SYNTAX INTEGER { cw(1), bits23(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "When set to cw(1), the device will begin transmitting upstream in CW mode using the specified amp gain and DAC attenuation values. When set to bits23(2), the device will begin transmitting upstream in 23 bit mode using the specified amp gain and DAC attenuation values." ::= { cmEngrUpstreamCalibration 13 } cmUsCalControlTablePopulate OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "When set to true(1), the upstream calibration control data will be loaded into the cmUsCalControlTable. If the table is already populated, it will be flushed and re-populated. If the amount of RAM available on the device becomes low while populating the table, an error code of RESOURCE UNAVAILABLE will be returned, and the table population will be incomplete. Setting this object to false(2) will flush the cmUsCalControlTable. When read, this object indicates the current state of the cmUsCalControlTable. A value of true(1) indicates that the table was successfully populated. A value of false(2) indicates that the table is either unpopulated, or that insufficient RAM was available to complete the population and that the table is incomplete." ::= { cmEngrUpstreamCalibration 14 } cmUsCalDiplexerType OBJECT-TYPE SYNTAX INTEGER { lowSplit(1), midSplit(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Controls and reflects the diplexer type on this board. The primary effect that this setting has is to control the range of frequencies used in upstream calibration when operating in annex B mode. A board with a lowSplit diplexer will be calibrated over a frequency range of 5..42 MHz, while a board with a midSplit diplexer will be calibrated over a frequency range of 5..85 MHz. This setting does not affect the calibration of an annex A board, which will always have a frequency range of 5..65 MHz." DEFVAL { lowSplit } ::= { cmEngrUpstreamCalibration 15 } --- --- Hardware engineering objects --- cmEngrHardware OBJECT IDENTIFIER ::= { cablemodemEngineering 4 } cmHwDSAGI OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "IF AGC Control" ::= { cmEngrHardware 1 } cmHwDSAGT OBJECT-TYPE SYNTAX Unsigned32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "RF (Tuner) AGC Control" ::= { cmEngrHardware 2 } cmHwSTPGA1 OBJECT-TYPE SYNTAX Unsigned32 (0..16777215) MAX-ACCESS read-write STATUS current DESCRIPTION "IF PGA Control" ::= { cmEngrHardware 3 } cmHwSTABW OBJECT-TYPE SYNTAX Unsigned32 (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "AGC Bandwidth Control" ::= { cmEngrHardware 4 } cmHwSTABW2 OBJECT-TYPE SYNTAX Unsigned32 (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "AGC Bandwidth Control 2" ::= { cmEngrHardware 5 } --- --- BPI engineering objects --- cmEngrBpi OBJECT IDENTIFIER ::= { cablemodemEngineering 5 } cmBpiTekEven OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0 | 8 | 16)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object returns the BPI Traffic Encryption Key (TEK) EVEN Key. The value may be 8 bytes if DES, 16 bytes if AES, or 0 bytes (empty string) if not configured." ::= { cmEngrBpi 1 } cmBpiTekOdd OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0 | 8 | 16)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object returns the BPI Traffic Encryption Key (TEK) ODD Key. The value may be 8 bytes if DES, 16 bytes if AES, or 0 bytes (empty string) if not configured." ::= { cmEngrBpi 2 } cmBpiCbcIvEven OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0 | 8 | 16)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object returns the BPI Cipher Block Chaining EVEN Initialization Vector. The value may be 8 bytes if DES, 16 bytes if AES, or 0 bytes (empty string) if not configured." ::= { cmEngrBpi 3 } cmBpiCbcIvOdd OBJECT-TYPE SYNTAX OCTET STRING (SIZE (0 | 8 | 16)) MAX-ACCESS read-only STATUS current DESCRIPTION "This object returns the BPI Cipher Block Chaining ODD Initialization Vector. The value may be 8 bytes if DES, 16 bytes if AES, or 0 bytes (empty string) if not configured." ::= { cmEngrBpi 4 } END