| chanNum |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.1 |
|
The value of this object identifies the
frame relay connection/channel index.
Note that the actual range of the index
supported by a card depends on the type of card.
Supported Range for different Card Types:
FRSM-4T1/E1 : Range is 16..271 (256 entries)
FRSM-8T1/E1 : Range is 16..1015 (1000 entries)
FRSM-T3/E3/HS2/
/HS2B-HSSI/T3B/E3B : Range is 16..2015 (2000 entries)
FRSM-2CT3/HS2B-12IN1: Range is 16..4015 (4000 entries)
For FRSM12 Card : Range is 16..16015 for Lower 16 bits
Upper 16 bits contain Chassis Number
and logical slot number.
|
| chanRowStatus |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.2 |
|
This object is used for adding/modifying/deleting
the channel.
add(1) : For adding the frame relay connections.
delete(2): For deleting frame relay connections.
mod(3) : For Modifying frame relay connections.
This is also used for uping the connection.
outOfService(4) : Bring the Frame relay connection
down.
|
| chanPortNum |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.3 |
|
This object refers to the frame relay
port on which channel is created.
This is a mandatory object for creating the channel.
For FRSM12 Card:
This object contains the port's ifIndex value.
|
| dLCI |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.4 |
|
The value of this object is the DLCI number of the channel.
This is a mandatory object for creating the channel.
All the connections on the same port should have
a unique DLCI number.
Note that if we are adding a channel to a port that
has LMI signalling enabled, then we can not use DLCI
number 0(ANNEX A & D) and 1023(STRATA LMI).
The value of this object can be only 1000 if
the portType = frame-forward(3) on which the frame relay
connection is being created. That is, only one Frame Relay
Connection can be created on a Frame Forwarding Port.
For portHeaderLen = twoOctets(1) following restrictions apply.
Range supported is '0..1023'
DLCI values 0,1007, 1023 can not be used.
For portHeaderLen = fourOctets(2) following restrictions apply.
Range supported is '0..8388607'
DLCI values 0,8257535 can not be used.
|
| egressQSelect |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.5 |
|
Selects one out of two possible port queues.
The default port queue number is 1 which is the high
pririty queue.
1 = High priority queue
2 = Low priority queue
3 = Indicates that this entry is not used (eg: in FRSM-VHS,
chanServType indicates the channel service type and
would determine the queue to which the channel gets mapped)
For FRSM12 Card:
This object is used to select between the two ATM-COS queues
in the egress direction.
|
| ingressQDepth |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.6 |
|
This variable sets the max depth for queue, before
it starts dropping the cells. It is defined in
terms of number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (4510..'ffff'h).
ingressQDepth should be greater than ingressQECNThresh
and ingressQDEThresh
For FRSM12 Card: Not Supported
|
| ingressQECNThresh |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.7 |
|
This variable sets the max depth for queue, before
it starts flow control. It is defined in terms of
number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (0..'ffff'h).
For FRSM12 Card: Not Supported
|
| ingressQDEThresh |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.8 |
|
This variable sets the max depth for queue, before
they become discard eligible. It is defined in terms of
number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (0..'ffff'h).
For FRSM12 Card: Not Supported
|
| egressQDepth |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.9 |
|
This variable sets the max depth for queue, before
it starts dropping the cells. It is defined in terms of
number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (0..'ffff'h).
egressQDepth should be greater than egressQDEThresh
and egressQECNThresh
For FRSM12 Card: Not Supported
|
| egressQDEThresh |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.10 |
|
This variable sets the max depth for queue, before
they become discard eligible. It is defined in terms of
number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (0..'ffff'h).
For FRSM12 Card: Not Supported
|
| egressQECNThresh |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.11 |
|
This variable sets the max depth for queue, before
it starts flow control. It is defined in terms of
number of bytes.
In all cards except the FRSM-VHS card, the range is
limited to (0..'ffff'h).
For FRSM12 Card: Not Supported
|
| deTaggingEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.12 |
|
This object enables/disables the DE tagging.
The tagging is enabled only in the ingress
direction.
For FRSM12 Card:
When this object is disabled, the ingress policer will never
set the DE bit to 1 in the Frame Relay frames even if
the incoming frame exceeds the Bc bucket.
|
| cir |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.13 |
|
The value of this object is equal to the CIR parameter
for this frame relay connection.
The CIR value have to be less than or equal to the port speed.
Any value from 1 to 2399 will be rounded off to 2400.
Range supported for different interfaces/card:
For E1 interface : Range is 0..2048000
For T1 interface : Range is 0..1536000
For E3 interface : Range is 0..34368000
For T3 interface : Range is 0..44736000
For HSSI : Range is 0..52000000
For FRSM-2CT3 : Range is 0..1536000
For FRSM-HS2B-12IN1: Range is 0..10240000
The CIR value can be 0 only for chanServType = uBR(5).
|
| bc |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.14 |
|
The value of this object is equal to the
committed burst size(BC) parameter for this
PVC endpoint.
The value of bc can not be 0 when cir is non zero.
The value of bc has to be 0 if cir is 0.
The peak value for bc in FRSM-VHS cards is (2^21 -1),
i.e. 2097151 and for all other cards, it is 65535.
For FRSM-VHS cards, the relation between CIR and Bc should
be such that Tc is always less than 512 seconds.
|
| be |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.15 |
|
The value of this object is euqal to the
excess burst size(Be) parameter for this PVC
endpoint.
The value be can not be 0 when cir is 0.
The peak value for be :
For FRSM-VHS and FRSM12 cards is (2^21 -1), i.e. 2097151 and
For all other cards, it is 65535.
For FRSM-VHS cards, setting the value of 2091751 will
cause the policing to be disabled.
|
| ibs |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.16 |
|
The value of this object is euqal to the
excess burst size(Be) parameter for this PVC
endpoint.
The value of ibs should be less or equal to bc
when cir is greater than 0.
The value of ibs has to be 0 when cir is 0.
The peak value for ibs in FRSM-VHS cards is (2^21 -1),
i.e. 2097151 and for all other cards, it is 65535.
For FRSM12 Card: Not Supported
|
| foreSightEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.17 |
|
This variable enables/disables foreSight option.
Following objects can be modified only when this
object is set to enable(1):
qir, mir, pir
The RATE CONTROL FEATURE has to be ON in order to enable
foresight and also modify its parameter.
For FRSM12 Card: Not Supported
|
| qir |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.18 |
|
The value of this object is euqal to the
quiescent information rate for Foresight.
The unit is 1 Cell/Sec = 16 fastpackets/sec.
Following information about cps is for reference only:
The peak value for qir in FRSM-VHS cards is 285714 cps and
for all other cards, it is 10000 cps.
For FRSM-VHS cards, cell will be the ATM cell (48 byte payload).
For FRSM12 Card: Not Supported
|
| mir |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.19 |
|
The value of this object is euqal to the
minimum information rate for Foresight.
The unit is 1 Cell/Sec = 16 fastpackets/sec.
is equal to 16 fastpackets/sec.
Following information about cps is for reference only:
The peak value for qir in FRSM-VHS cards is 285714 cps and
for all other cards, it is 10000 cps.
For FRSM-VHS cards, cell will be the ATM cell (48 byte payload).
For FRSM12 Card: Not Supported
|
| pir |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.20 |
|
The value of this object is euqal to the
peak information rate for Foresight.
The unit is 1 Cell/Sec = 16 fastpackets/sec.
is equal to 16 fastpackets/sec.
Following information about cps is for reference only:
The peak value for qir in FRSM-VHS cards is 285714 cps and
for all other cards, it is 10000 cps.
For FRSM-VHS cards, cell will be the ATM cell (48 byte payload).
For FRSM12 Card: Not Supported
|
| chanLocRmtLpbkState |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.21 |
|
This variable enables or disables the remote loopback for each
channel.
When you enable this option on a connection (channel) then all the
cells that are coming from the network side would be looped back
toward the network and all the frames coming from the user side
would be dropped.
This channel remote loopback has nothing to do with the chanTestType
option, each one does a different function.
For example, the channel remote loopback is used for looping the data
toward the network and if this connection is terminated on an IPX
then they can put a test equipment and measure some of the
characteristics of the network.
For FRSM12 Card: Not Supported
|
| chanTestType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.22 |
|
The chanTestType starts testing the continuity
or delay of a connection.
It sends specific cell patterns toward the network
and the terminating end of this connection has to be an
MGX8220 or ASI of a BPX in order for this test to be working.
The receiving node would loop back when it receives these
cells. The test should be done in about couple of seconds.
The testcon tests the continuity of the connection and
testdelay uses the same test except that it measures for
delay through the network.
To test the delay follow this procedure:
a- set chanTestType to testdelay
b- read chanTestState till it is Pass or Fail
c- Read chanRTDResult for the delay if it is Pass
*Note that the chanTestType would go back to notest when the
test is completed
To test the continuity follow this procedure:
a- set chanTestType to testcon
b- read chanTestState till it is Pass or Fail
*Note that the chanTestType would go back to notest when the
test is completed
You CAN NOT select 2 tests back to back,
you have to select one and wait for
the result and then start the other one.
SYNTAX
When you select testdelay
This is the type of the test
1 = Test Continuity
2 = Test Delay
3 = No Test
|
| chanTestState |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.23 |
|
This shows the state of the test
When you add a connection then the chanTestState becomes notinprogress
and when you select any test, it would go to inprogress state and after
it completes the test, it will go to failed or passed state.
1 = Passed
2 = Failed
3 = In Progress
4 = Not In Progress
|
| chanRTDResult |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.24 |
|
This is round trip delay in milliseconds.
When you select testdelay option for the chanTestType, the result of
the test that is measured in milliseconds can be read in chanRTDResult.
|
| chanType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.25 |
|
The value of this object is used for setting the
channel type of a frame relay connection. If set
with values frSIW-transparent(2) and frSIW-translate(3),
all PVC data is subject to service interworking translation
and mapping in both Frame Relay-to-ATM and ATM-to-Frame relay
directions.
The possible values are :
frNIW(1) : Frame-Relay-to ATM Network
Interworking(NIW-unicast).
The traffic crosses the network as
ATM Cells.
frSIW-transparent(2): Service InterWorking with out any
SDU translation. In transparent mode,
the service module does not translate.
frSIW-translate(3) : Service InterWorking with SDU translation.
In translation mode, service module
translates protocol between the FR NLPID
encapsulation(RFC 1490) and ATM LCC
encapsulation(RFC 1483). Translation mode
support includes address resolution by
transforming address resolution protocol
(ARP, RFC 826) and inverse ARP(RFC 1293)
between the frame relay and ATM Formats.
frFUNI(4) : Frame based UNI: mode-1a which is ALL5.
frForward(5) : frame forwarding. Frame forwarding operates
same as standard frame relay except:
* 2 byte Q.922 header is not assumed
or interpreted.
* All frames received are mapped to a
specific connection if it exists. Otherwise
the frames are dropped.
* No DE/CLP or FECN/EFCI mapping is performed.
* 'llegal Header count' and 'invalid DLCI'
statistics are not kept/applicable.
frNIWReplace(6) : Frame Relay network interworking
with DLCI in FR-SSCS(Frame Relay Specific
Convergence Sublayer)PDU always
set to 1022.
|
| chanFECNconfig |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.26 |
|
The value of this object specifies how to map
from FECN field in the frame Relay PDU to
the EFCI field in the ATM cells.
This object does not apply to NIW.
This is applicable only
for SIW.
mapEFCI(1) : Maps the FECN bits in frame-relay
to EFCI bit in the ATM cells.
This value is valid only for SIW.
setEFCIzero(2): Set EFCI = 0. Do not map FECN to EFCI.
|
| chanDEtoCLPmap |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.27 |
|
The value of this object specifies how to map
from DE bit on the Frame Relay side to CLP
bit on the ATM side.
mapCLP(1) : Map DE bit to CLP bit in ATM cell.
setCLPzero(2) : Ignore DE bit. Set CLP to 0.
setCLPone(3) : Ignore DE bit. Set CLP to 1.
For FRSM12 Card:
Should not be mapCLP for chanType of frForward.
|
| chanCLPtoDEmap |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.28 |
|
The value of this object enables mapping of
Cell Loss Priority(CLP) bit on the ATM Side
to Discard Eligibility(DE) bit on the Frame relay
side.
The possible values are :
mapDE(1) : Map CLP bit to DE bit.
Valid for SIW and NIW.
setDEzero(2) : Ignore CLP. Set DE bit to 0.
Valid for SIW.
setDEone(3) : Ignore CLP. Set DE bit to 1.
Valid for SIW.
ignoreCLP(4) : Ignore CLP. No change in receieved DE bit.
Valid for NIW.
For FRSM12 Card:
Should be ignoreCLP for chanType of frForward.
Should not be setDEzero/setDEone for chanType of frNIW
and frNIWReplace.
Should not be ignoreCLP for chanType of frSIW-transparent
and frSIW-translate.
|
| chanIngrPercentUtil |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.29 |
|
The ingress utilization on a
frame relay connection.
|
| chanEgrPercentUtil |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.30 |
|
The egress utilization on a
frame relay connection.
|
| chanEgrSrvRate |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.31 |
|
The value of this object identifies egress CIR
value for a frame relay connection.
The value of this object must be less than or equal(<=)
to the port speed.
The value supported depends upon the interface
and service module(card) type.
For E1 Service Module : Range is 2400..2048000
For T1 Service Module : Range is 2400..1536000
2CT3 Module :
For E3 Service Module : Range is 2400..34368000
For T3 Service Module : Range is 2400..44736000
For HSSI Service Module : Range is 2400..52000000
For FRSM12 Card:
This object is used only for CAC and the range will be same
as the range for cir object. The Maximum value is 44736000m.
|
| chanOvrSubOvrRide |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.32 |
|
The value of this object enables/disables the
oversubscription on a connection.
This object allows one to add a new connection on a port
even if it is over subscribed.
For FRSM12 Card: Not Supported.
|
| chanFrConnType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.33 |
|
The value of this object is used for configuring
connection type of a frame relay connection.
The possible values are :
pvc(1) : Permanent Virtual Connection
svc(2) : Switched Virtual Connection
spvc(3) : Soft PVC.
par(4) : Portable Auto Route Connection.
Valid only for trunk connection
pnni(5) : PNNI Connection
Valid only for trunk connection
tag(6) : Tag/MPLS Connection
Valid only for trunk connection
For FRSM12 Card: Not Supported.
|
| frCDRNumber |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.34 |
|
The value of this object identifies
the CDR(Call Detail Record) number.
This is the key to correlate
cell/frame counts, start/end record.
For FRSM12 Card: Not Supported
|
| frLocalVpi |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.35 |
|
The value of this object provides the VPI
value for the local endpoint.
This object in conjunction with frLocalVci and
frLocalNSAP represents the local end point of
this connection.
The service module sets this to value 0.
|
| frLocalVci |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.36 |
|
The value of this object provides the VCI
value for the local endpoint.
This object in conjunction with frLocalVpi and
frLocalNSAP represents the local end point of
this connection.
The service module assigns this value
specified in object 'dLCI'.
|
| frLocalNSAP |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.37 |
|
The value of this object identifies the
NSAP address of the frame relay connection.
The value of this object follows the format:
Prefix : 13 Bytes
Cisco ID : 2 bytes
Reserved : 1 byte
Slot Number : 1 byte
Port Number : 2 bytes
ESL : 1 byte
For FRSM12 Card:
This object will have the NSAP format as required by the
PNNI controller
|
| frRemoteVpi |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.38 |
|
The value of this object identifies the VPI value of remote
end point of this connection. The frRemoteVpi, frRemoteVci
and frRemoteNSAP identifies the remote end point of
this connection.
|
| frRemoteVci |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.39 |
|
The value of this object identifies the VCI value of remote
end point of this connection. The frRemoteVpi, frRemoteVci
and frRemoteNSAP identifies the remote end point of
this connection.
|
| frRemoteNSAP |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.40 |
|
The value of this object identifies the
NSAP address of the frame relay connection.
The value of this object follows the format:
Prefix : 13 Bytes
Cisco ID : 2 bytes
Reserved : 1 byte
Slot Number : 1 byte
Port Number : 2 bytes
ESL : 1 byte.
|
| frMastership |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.41 |
|
This is used by PXM to determine if this end point is
master or slave, a new type unknown is added to identify
the SM in MGX8220 shelf and the SM in MGX shelf. In AXIS
shelf, user can still use addchan to add a channel without
specifying X/Y/P parameters. But in MGX shelf, if the
user uses addchan without X/Y/P set (based on this object
being set to type 3 unknown), SPM on PXM will reject
the request. It must be supplied in connection setup request.
In the feeder mode, this is always set to master.
|
| frVpcFlag |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.42 |
|
This represents the connection type, used for PXM to
identify VPC/VCC but FRSM card doesn't use it
always set to vcc for FRSM card
For FRSM12 Card:
For chanFrConnType = pnni(5), this object is
set to vcc(2) always.
|
| frConnServiceType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.43 |
|
This specifies the service type
1 ==> Constant Bit Rate
2 ==> Variable Bit Rate
3 ==> Not used
4 ==> Unspecified Bit Rate
5 ==> ATM frame relay
6 ==> standard ABR
7 ==> foresight ABR
Note that this is used by PXM card, SV+ doesn't need to set it,
if not set in the connection setup request, it'll be defaulted
to ATFR type for FRSM.
Also to make it compatible with existing AUSM MIB definition,
value 3 is not used.
The following types are being added for PNNI support.
and are based on UNI 4.0
cbr1 (21) - CBR.1
vbr1rt (22) - Real time VBR.1
vbr2rt (23) - Real time VBR.2
vbr3rt (24) - Real time VBR.3
vbr1nrt(25) - Non Real time VBR.1
vbr2nrt(26) - Non Real time VBR.2
vbr3nrt(27) - Non Real time VBR.3
ubr1 (28) - UBR.1
ubr2 (29) - UBR.2
stdabr (30) - TM 4.0 compliant standard ABR
cbr2 (31) - CBR.2
cbr3 (32) - CBR.3
For FRSM12 Card:
Not Supported. Derived from chanServType.
|
| frRoutingPriority |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.44 |
|
This is used by PXM to determine how important this
connection is when selecting connections to route
|
| frMaxCost |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.45 |
|
The value of this object specifies the
Maximum allowed cost. It is related to Cost Based Routing.
This is used by PXM so that it won't choose a path with
a cost greater than this configured level. This is not
necessary to be provided in the connection setup request,
if not provided, the default value 255 will be used.
Also the range supported depends upon the controller
configured :
Controller Range Default Value
chanFrConnType = par(2) 1..65535 255
chanFrConnType = pnni(5) 1..2147483647 2147483647.
|
| frRestrictTrunkType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.46 |
|
Restricted trunk type for routing, used by PXM. It
specifies that the connection either cannot be routed over
satelite trunks, or terrestrial trunks, or it can be on
any type of trunk. It is not necessary to be provide in
the connection setup request, the default value is
norestriction(1).
For FRSM12 Card: Not Supported
|
| frConnPCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.47 |
|
The value of this object identifies
the PCR(Peak Cell Rate). If not provided in
the connection setup request, it'll be derived from
object 'pir'.
For FRSM12 Card:
Default value is (1.44 * CIR)
|
| frConnRemotePCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.48 |
|
Peak cell rate of the other end, if not set, will be
set to the same as local end PCR (frConnPCR). However,
note that if the CIRs for both local and remote end
are set to the different value (i.e., asymmetric conn),
then this should be set differently from local end PCR.
For FRSM12 Card:
Default value is frConnPCR
|
| frConnMCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.49 |
|
Minimum cell rate, if not provided in the connection setup
request, it'll be derived from object 'mir'.
For FRSM12 Card:
Default value is frConnPCR
|
| frConnRemoteMCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.50 |
|
Minimum cell rate of the other end, if not set, will be
set to the same as local end MCR (frConnMCR). However,
note that if the CIRs for both local and remote end
are set to the different value (i.e., asymmetric conn),
then this should be set differently from local end MCR.
For FRSM12 Card:
Default value is frConnMCR
|
| frConnPercentUtil |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.51 |
|
This is the expected long-term utilization of the
channel by this end-point. If this is not specified in
the connection setup request, it'll be defaulted to
100 percent
For FRSM12 Card: Not Supported
|
| frConnRemotePercentUtil |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.52 |
|
This is the expected long-term utilization of the
channel by the other end-point. If this is not specified in
the connection setup request, it'll be set to be the same
as the local end frConnPercentUtil value assuming that the
connection is symmetric. In a asymmetric connection, this
object is supposed to be set.
For FRSM12 Card: Not Supported.
|
| frConnForeSightEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.53 |
|
This object is used by the controller(PAR/PNNI/TAG) to
set up the Qbin for the connection, if this is not set,
it'll be defaulted by SM to the same as foreSightEnable
in the end point parameters.
For FRSM12 Card: Not Supported.
|
| frConnFGCRAEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.54 |
|
The value of this object is used for
enabling/disabling Frame based GCRA
(early packet discard).
For FRSM12 Card: Not Supported.
|
| chanServType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.55 |
|
The value of this object indicates the
indicates the class of the connection.
1-High priority (typically CBR connections)
2- real-time VBR
3- non-real time VBR
4- Available Bit Rate
5- Unspecified Bit Rate
9- Standard ABR
There are 8 queues actually but only 4 are being used
(the 4 queues are for CBR, VBR-rt, <VBR-nrt and ABR>, UBR traffic).
This object is suported only in FRSM-VHS and FRSM-8T1E1.
For FRSM-8T1E1, a 0 indicates that the connections are of old model
type where chanServType object is unused.
For FRSM12 Card:
The types aBR, queue6, queue7, queue8 are not supported
This object can not be modified after a frame relay
connection has been created.
|
| chanServiceRateOverride |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.56 |
|
This variable sets the SAR IR programming option.
Foresight and chanServiceRateOverride are mutually exclusive.
For FRSM12 Card: Not Supported.
|
| chanServiceRate |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.57 |
|
This is the rate to which IR can be set to when
chanServiceRateOverride is set to enable(1). If
chanServiceRateOverride is disable(2) then this object
does not have any significance.
For FRSM-8T1/8E1,this is defined in fastpackets/sec.
For FRSM-VHS, this is defined in atm cells per second.
For VHS the range in cells per second will be 10 to 400000 cps.
For FRSM12 Card: Not Supported.
|
| zeroCirConEir |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.58 |
|
The value of this object defines defines EIR
value for '0' CIR connection.
If the value is '0', EIR is set to port speed.
If zeroCirConEir is non-zero value, EIR is set
to value of this object, and this value
is used for policing in ingress direction.
This object is valid only for a zero cir connection.
zeroCirConEir has to be less than or equal to the port speed.
|
| chanReroute |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.59 |
|
This is used by the administrator to trigger the re-routing
of the connection. The rerouting takes effect, when this object
is set to true(1). When set to false (2), no action is taken.
A get on this object always returns false (2).
This object is not applicable to MGX Release 1.x.
|
| frConnSCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.60 |
|
Sustained cell rate, Used for VBR connections setup with PNNI
controller.
For FRSM12 Card: Default value is frConnPCR
This object is not applicable to MGX Release 1.x.
|
| frConnRemoteSCR |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.61 |
|
Sustained cell rate of the other end, Used for VBR connections
setup with PNNI controller.
For FRSM12 Card: Default value is frConnSCR
This object is not applicable to MGX Release 1.x
|
| frConnTemplateId |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.62 |
|
This object specifies the template identifier for the connection
template associated with this connection.
The valid range for templates is 1..16.
A value of 17 indicates no template is associated with this
connection
For FRSM12 Card: Not Supported
This object is not applicable to MGX Release 1.x
|
| frConnAdminStatus |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.63 |
|
This object specifies channel admin status.
This object is not applicable to MGX Release 1.x.
|
| frChanCnfChangeCount |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.64 |
|
This object is added only for FRSM12 card.
This counter tracks the number of configuration changes
that happen on a channel. The counter is
associated only with the end point and NOT with the
connection itself.
This counter is used by the NMS to determine if a connection
configuration had been modified and requires an upload.
This functionality is conventionally achieved by time
stamping using a time-of-day clock. However, in switches
where time-of-day clock is not available, the following
scheme is used:
The upload counter is incremented, when:
* assignment of connection to an end point channel. This
happens when a connection is added and assigned this
channel number.
* de-assignment of connection from a channel number. This
happens when a connection is deleted and the
end point resource is released.
* When there is a configuration change done to the connection
that is associated with this end point channel number.
In a new system, an unutilised resouce (channel number)
has a counter value of zero. When a connection is added to
this channel end point, the counter is incremented. And is
incremented for any of the above operations. When a connection
is deleted the value of this counter is incremented and
preserved till a new connection gets associated with this
channel end point.
This object is not applicable to MGX Release 1.x.
|
| frChanCnfIgnoreIncomingDE |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.65 |
|
This object is added for FRSM12 card.
When this object is enabled, the incoming frames with
DE(Discard Eligible) bit set to 1 are counted in the
Bc bucket instead of Be bucket
This object is not applicable to MGX Release 1.x.
|
| frChanOamCCEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.66 |
|
This object is added for FRSM12 card.
This object serves to enable or disable continuity check(CC)
on a connection endpoint. When continuity check is enabled
on an endpoint, the endpoint anticipates OAM CC cells from its
peer endpoint. OAM CC cells are sent when the peer endpoint
does not have traffic cells to send. If the connection is
idle and this endpoint has not received OAM CC cells for a
period of 3.5 +/- 0.5 seconds, it declares continuity failure.
This object serves to administratively control the CC feature.
Typical implementations (of this feature) may choose to ignore
this control or impose other conditions to actually enable CC
cell flow. However, if this object is set to false(2), then this
feature should be disabled
This object is not applicable to MGX Release 1.x.
|
| frChanStatsEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.67 |
|
This object serves the purpose of enabling/disabling statistics
collection on a per connection basis. In implementations which
do not have such limitations, this object can be set to enable(1)
for all connections.
Limits imposed by software or hardware implementations
could restrict the amount of statistical data that can be
maintained in a physical entity (like a service module card).
Hence there could be a need to restrict statistics collection
to a smaller subset.
This object is not applicable to MGX Release 1.x.
|
| frChanLocalLpbkEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.68 |
|
This object is added for FRSM12 card.
This object when enabled adds a channel-level loopback
towards the port side. If the connection is in loopback,
Connection MIB (FrChanCnfGrpEntry) variables cannot be modified.
This object is not applicable to MGX Release 1.x.
|
| frChanUpcEnable |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.69 |
|
This object is added for FRSM12 card.
This object when disabled, disables Frame Relay policing.
This object is not applicable to MGX Release 1.x.
|
| frChanSlaveType |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.70 |
|
This object is added for FRSM12 card.
This object indicates whether a master endpoint has a persistent
slave or not. A connection with a master and a non-persistent
slave is considered a single-ended SPVC.
This object is only meaningful when 'frMastership'
contains the value of 'master(1)'. And this variable
must be used with 'frMastership' to decide
if a connection is single-ended or not.
This object is not applicable to MGX Release 1.x.
|
| frConnRemoteMBS |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.71 |
|
Remote Maximum Burst Size in terms of number of cells.
This object should be set by the user in cases when
the remote end of the connection is an ATM end-point
where the Local MBS can be explicitly specified. In such
cases, this element should be set to be equal to the
remote end-point's local MBS.
This object is not applicable to MGX Release 1.x.
|
| frChanPrefRouteId |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.72 |
|
This object serves to to associate a preferred
route with a connection.
The value '0' means no preferred route is associated with
this connection.
Usage:
- If the value of this set to 0, the object
frChanDirectRoute is automatically set to FALSE by
the switch.
- The preferred route is defined in cwaPrefRouteConfTable
object.
|
| frChanDirectRoute |
.1.3.6.1.4.1.351.110.5.1.2.1.1.1.73 |
|
This object serves to associate a prefer
route as directed route (correspond to the prefer route
object frChanPrefRouteId).
A directed route specifies that the associated preferred
route is the only permission route for the connection to
take. Should the associated preferred route be unavailable,
the connection is failed.
The object is not applicable if there is no associated
preferred route with the connection.
|
| frstdABRcnfChanNum |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.1 |
|
Refers to the virtual connection index.
The value supported depends upon the type
of service module.
Supported Range for different Card Types:
FRSM-4T1/E1 : supported range is 16..271 (256 entries)
FRSM-8T1/E1 : supported range is 16..1015 (1000 entries)
FRSM-T3/E3/HS2/
/HS2B-HSSI/T3B/E3B : supported range is 16..2015 (2000 entries)
FRSM-2CT3/HS2B-12IN1: supported range is 16..4015 (4000 entries)
FRSM12 Card:
Byte 3 = Chassis Number, Byte 2 = Slot Number,
Byte 1 & 0 = channel Number.
Lower two bytes range from 16..16015 (16000 entries)
|
| frstdABRTBE |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.2 |
|
The value of this object is equal to
Transient Buffer Exposure(TBE). The TBE is a negotiated
number of cells that the network would like to limit
the source to sending during startup periods, before the
first RM-cell returns.
|
| frstdABRFRTT |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.3 |
|
The value of this object is equal to
Fixed Round-Trip Time(FRTT). The FRTT is
sum of the fixed propogation delays from
the source to a destination network.
The Value 0 signifies that FRTT is not available.
|
| frstdABRRDF |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.4 |
|
The value of this object is equal to
Rate Decrease Factor(RDF). The RDF controls the
rate decrease which occurs when backward RM-cells
with CI=1 are received. Larger values lead to faster
rate decrease.
The value specified has to be inverted to
arrive at the actual value.
The valid values possible are only powers of 2;
i.e. 1, 2, 4, 8 ..... 32768.
The SNMP agent has to verify this compliance.
|
| frstdABRRIF |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.5 |
|
The value of this object is equal to
Rate Increase Factor(RIF). The RIF controls the
rate increase which occurs when a backward RM-cell
is received with CI=0 and NI=0.
The value specified has to be inverted to arrive
at the actual value.
The valid values possible are only powers
of 2; i.e. 1, 2, 4, 8 ..... 32768.
The SNMP agent has to verify this
compliance.
|
| frstdABRNrm |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.6 |
|
The value of this object is equal to
number of cells a source may send for each
forward RM cell.
The valid values possible are only powers of 2
starting from 2; i.e. 2, 4, 8 ..... 256.
The SNMP agent has to verify this compliance.
|
| frstdABRTrm |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.7 |
|
The value of this object is equal to
Upper bound on the time between forward RM
cells for an active source.
|
| frstdABRCDF |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.8 |
|
The value of this object is equal to
Cutoff Decrease Factor(CDF). The value specified
has to be inverted to arrive at the actual value.
The valid values possible are 0
and only powers of 2; i.e., 1, 2, 4, 8, 16, 32, 64.
The SNMP agent has to verify this compliance.
|
| frstdABRADTF |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.9 |
|
The value of this object is equal to
ACR Decrease Time Factor(ADTF).
The Granularity allowed is 10 milli seconds.
i.e. 10,20,30 etc.
The SNMP agent has to verify this compliance.
|
| frstdABRICR |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.10 |
|
The value of this object is equal to
Initial Cell Rate(ICR). The ICR is the rate at which
the source should send initially and after an idle period.
This includes the bandwidth allocated for both data cells
as well as all in-rate RM cells.
|
| frstdABRMCR |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.11 |
|
The value of this object is equal to
Minimum Cell Rate(MCR). The MCR is the rate at which
the source is allowed to send. This includes the bandwidth
allocated for both data cells as well as all in-rate RM cells.
|
| frstdABRPCR |
.1.3.6.1.4.1.351.110.5.1.2.1.3.1.12 |
|
The value of this object is equal to
Peak Cell Rate(PCR). The PCR is the rate at which
the source is allowed to send. This includes the
bandwidth allocated for both data cells as well as
all in-rate RM cells.
|
| stateChanNum |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.1 |
|
The value of this object refers to
frame relay connection.
The value must be same as the value of
the object 'chanNum' in frChanCnfGrpTable.
|
| chanState |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.2 |
|
This variable indicates the LMI state of the
VC (channel).
The possible values are :
notConfigured(1): Connection Not configured
okay(2) : Connection is in Ok state
alarm(3) : Connection is in alarm
failed(4) : Connection is in failed state.
This is applicable only for PNNI.
|
| xmtAbitState |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.3 |
|
The value of this object identifies the
A bit transmit state.
The possible values are :
off(1) : LMI is off
sendingAequal1(2) : LMI is on and connection is O.K.
sendingAequal0(3) : LMI is on and connection is failed.
|
| rcvAbitState |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.4 |
|
The value of this object identifies the
A bit receive state.
The possible values are :
off(1) : LMI is off
rcvingAequal1(2) : LMI is on and connection is O.K.
rcvingAequal0(3) : LMI is on and connection is failed.
|
| xmtATMState |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.5 |
|
This variable indicates the transmit state of the
VC (channel) on the ATM side.
The possible values are :
notSending(1) : Not sending any state
sendingAIS(2) : Sending AIS OAM state
sendingFERF(2) : Sending FERF OAM state.
|
| rcvATMState |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.6 |
|
This variable indicates the receive state of the
VC (channel) on the ATM side.
The possible values are :
notRcving(1) : Not receiving any state
rcvingAIS(2) : Receiving AIS OAM
rcvingFERF(2) : Receiving FERF OAM.
|
| chanStatusBitMap |
.1.3.6.1.4.1.351.110.5.1.2.2.1.1.7 |
|
This variable indicates the consolidated bit map of the channel alarm
state.
Individual bit positions are as defined below.
Bit position Fail/Alarm Reason
------------ ---------- ------
0 Alarm Reserved
1 Alarm n/w side AIS/RDI Rx
2 Fail Conditioned(A bit from n/w)
3 Alarm Reserved
4 Fail CC failed/RAS failed
5 Fail Mismatch
6 Alarm ingress A bit (LMI)
7 Alarm Reserved
Fail bitmap mask : 0x34
Alarm bitmap mask: 0xCB
This object is not applicable to MGX Release 1.x.
|
| endPortNum |
.1.3.6.1.4.1.351.110.5.1.3.1.1.1 |
|
This object identifies the frame relay logical port.
The value for this object must be same as 'portNum'
object in frPortCnfPortGrpTable.
If ifTable is is implemented in a service module,
this object must be same as the ifIndex of frame relay port.
|
| endDLCI |
.1.3.6.1.4.1.351.110.5.1.3.1.1.2 |
|
The value of this object is equal to the
DLCI value for this PVC endpoint.
|
| endChanNum |
.1.3.6.1.4.1.351.110.5.1.3.1.1.3 |
|
The value of this object identifies the
frame relay connection number.
The value of this object is same as the
value of 'chanNum' object in frChanCnfGrpTable.
This object contains value 0, if
port.dlci is a multicast group.
|
| endLineNum |
.1.3.6.1.4.1.351.110.5.1.3.1.1.4 |
|
The value of this object is equal to the physical
line(for example T1/E1) or ifIndex on which connection
is provisioned.
If ifTable is not implemented in a service module,
then the range is from 1 to Maximum number of lines
supported.
If ifTable is is implemented in a service module,
this object must be same as the ifIndex of the
interface (ifType=ds1(18),ds3(30)).
The value supported for this object depends upon
the type of service module:
FRSM-4T1/E1 : Range is from 1..4
FRSM-8T1/E1 : Range is from 1..8
FRSM-T3/E3/HS2: Range is from 1..2
FRSM-2CT3 : Range is from 1..56
with ifTable Support: must refer to ifIndex
of the interface.
|
