| cwdxQosCtrlUpEntry |
.1.3.6.1.4.1.9.9.169.1.1.1.1 |
|
A list of attributes for each upstream MAC scheduler
that supports Quality of Service. Entries in this table
exist for each ifEntry with ifType of
propDocsWirelessUpstream(nnn).
|
| cwdxQosIfRateLimitEntry |
.1.3.6.1.4.1.9.9.169.1.1.2.1 |
|
List of the rate limiting attributes for upstream and
downstream interfaces schedulers that support Quality of
Service. Entries in this table exist for each ifEntry with
ifType of propDocsWirelessUpstream(nnn) and
propDocsWirelessDownstream(nnn).
|
| cwdxHeServiceExtEntry |
.1.3.6.1.4.1.9.9.169.1.1.3.1 |
|
Additional objects for cwdIfHeServiceTable entry including
downstream traffic statistics and excess counts against the
Quality of Service limits for each Service ID.
|
| cwdxBWQueueEntry |
.1.3.6.1.4.1.9.9.169.1.2.1.1 |
|
The list of queue attributes in upstream and downstream
interfaces schedulers that supports Quality of Service.
Entries in this table exist for each ifEntry with ifType of
propDocsWirelessUpstream(nnn) and
propDocsWirelessDownstream(nnn).
|
| cwdxCpeEntry |
.1.3.6.1.4.1.9.9.169.1.3.1.1 |
|
The list contains information for a Customer Premises
Equipment (CPE) connected to SUs. An entry exists for
each Customer Premises Equipment connected to a
subscriber-unit supported by HE.
|
| cwdxSuMappingEntry |
.1.3.6.1.4.1.9.9.169.1.3.2.1 |
|
There exists an entry in this table for every SU
connected to the HE. Each entry contains a mapping
from the SU's mac address to the cwdIfHeSuStatusIndex.
|
| cwdxHeSuStatusExtEntry |
.1.3.6.1.4.1.9.9.169.1.3.3.1 |
|
Additional objects for cwdIfHeSuStatusTable entry.
|
| cwdxHeMacExtEntry |
.1.3.6.1.4.1.9.9.169.1.3.4.1 |
|
Additional objects for cwdIfHeMacTable entry including
the Subscriber-unit notification enable/disable and the
interval of Subscriber-unit notification sent by the HE
for a Subscriber-unit that the Mac interface supports.
An entry in this table exists for each ifEntry with an
ifType of propDocsWirelessMacLayer(nnn).
|
| cwdxHeSuChOverTimeExpiration |
.1.3.6.1.4.1.9.9.169.1.3.5 |
|
The time period to expire a HE channel override operation.
Within the time period, if the HE cannot send out a
RNG-RSP message with channel override fields to a
SU specified in the operation, the HE will abort
the operation. The possible reason is that the
SU does not repeat the initial ranging.
The change to this object will not affect the already active
operations in this cwdxHeSuChOverTable.
Once the operation completes, the management station should
retrieve the values of the cwdxHeSuChOverState
object of interest, and should then delete the entry
from cwdxHeSuChOverTable. In order to prevent old
entries from clogging the table, entries will be aged out,
but an entry will never be deleted within 15 minutes of
completing.
|
| cwdxHeSuChOverEntry |
.1.3.6.1.4.1.9.9.169.1.3.6.1 |
|
An HE operation entry to instruct a Subscriber-unit to move
to a new downstream and/or upstream channel.
There can be more than one entry per Subscriber-unit,
so there is a time stamp for each entry to show the time
when this operation is initiated.
A management station wishing to create an entry should
first generate a pseudo-random serial number to be used
as the index to this sparse table. The station should
then create the associated instance of the row status
object. It must also, either in the same or in successive
PDUs, create the associated instance of the command and
parameter objects. It should also modify the default values
for any of the parameter objects if the defaults are not
appropriate.
Once the appropriate instances of all the command
objects have been created, either by an explicit SNMP
set request or by default, the row status should be set
to active to initiate the operation. Note that this entire
procedure may be initiated via a single set request which
specifies a row status of createAndGo as well as specifies
valid values for the non-defaulted parameter objects.
Once an operation has been activated, it cannot be stopped.
That is, it will run until either the HE has generated
downstream frequency and/or upstream channel override fields
in the RNG-RSP message sent to a Subscriber-unit or time out.
In either case, the operation is completed. During this
time the row cannot be destroyed.
Once the operation is completed, the real result of the
operation to the Subscriber-unit cannot be known from this table.
The result of the Subscriber-unit's downstream frequency and the
upstream channel id can be checked from other MIB tables.
For example, cwdIfHeServiceTable from
CISCO-WIRELESS-DOCS-IF-MIB can be used to check
whether the Subscriber-unit's downstream frequency
and upstream channel id are changed. Please note that even
though HE has generated downstream frequency and/or
upstream channel override fields in the RNG-RSP message sent
to a SUs if the SU cannot lock at the instructed downstream
frequency or no upstream channel id could be used, it may
reconnect back to the original downstream frequency and
upstream channel id.
Once the operation completes, the management station should
retrieve the values of the cwdxHeSuChOverState
objects of interest, and should then delete the entry.
In order to prevent old entries from clogging the table,
entries will be aged out, but an entry will never be deleted
within 15 minutes of completing.
|
| cwdxHeSuEntry |
.1.3.6.1.4.1.9.9.169.1.3.7.1 |
|
The list contains a SU's attributes or
configurable parameters from a HE.
|
| cwdxQosProfileExtEntry |
.1.3.6.1.4.1.9.9.169.1.4.1.1 |
|
Each row extends the existing row in the
cwdIfQosProfileTable with additional QOS parameters.
|
| cwdxQosIpTosRatelimitEntry |
.1.3.6.1.4.1.9.9.169.1.4.2.1 |
|
Describes the Ip Precedence parameters. For every
QOS profile entry in the cwdIfQosProfileTable,
there will be seven corresponding rows in this
cwdxQosIpTosRatelimitTable.
The default value of 0 will be assigned to
cwdxQosIpTosRatelimitMaxDownRate for all the
rows.
|
| cwdxQosCtrlUpAdmissionCtrl |
.1.3.6.1.4.1.9.9.169.1.1.1.1.1 |
|
The admission control status for this upstream entry.
When this object is set to 'true', the upstream scheduler
will check the virtual reserved bandwidth remaining
before giving admission to this new SU. If there
is not enough reserved bandwidth to serve the SU's minimum
guaranteed bandwidth, the registration request will be
rejected.
This object is set to 'false' to disable admission control.
That is, there will be no checking for bandwidth capacity and
the upstream interface scheduler just admits SU registration
requests.
|
| cwdxQosCtrlUpMaxRsvdBWPercent |
.1.3.6.1.4.1.9.9.169.1.1.1.1.2 |
|
The percentage of upstream maximum reserved bandwidth to the
raw bandwidth if the admission control is enabled on this
upstream.
For example, if the upstream interface has raw bandwidth
1,600,000 bits/second and cwdxQosCtrlUpMaxRsvdBWPercent is 200
percent, then this upstream scheduler will set the maximum of
virtual reserved bandwidth capacity to 3,200,000 bits/second
(1,600,000 * 2) to serve Subscriber-units with minimum guaranteed
upstream bandwidth.
The default value is 100 percent (that is, maximum reserved
bandwidth is the raw bandwidth.) Whenever the admission control
is changed (on to off, off to on), this value will be reset to
the default value 100.
If the admission control is disabled, the value will be reset
to 100 (the default value).
|
| cwdxQosCtrlUpAdmissionRejects |
.1.3.6.1.4.1.9.9.169.1.1.1.1.3 |
|
The count of SU registration requests rejected on this
upstream interface. The rejection is due to insufficient
available bandwidth for this SU. The requests are rejected
only when cwdxQosCtrlUpAdmissionCtrl is 'true' on this
upstream interface.
|
| cwdxQosCtrlUpReservedBW |
.1.3.6.1.4.1.9.9.169.1.1.1.1.4 |
|
The current total reserved bandwidth in bits per second of this
upstream interface. It is the sum of all SUs' minimum
guaranteed bandwidth in bits per second currently supported
on this upstream.
|
| cwdxQosCtrlUpMaxVirtualBW |
.1.3.6.1.4.1.9.9.169.1.1.1.1.5 |
|
The maximum virtual bandwidth capacity of this upstream interface
if the admission control is enabled. It is the raw bandwidth
in bits per second times the percentage. If the admission
control is disabled, then this object will contain the value
zero.
|
| cwdxQosIfRateLimitAlgo |
.1.3.6.1.4.1.9.9.169.1.1.2.1.1 |
|
To ensure fairness, at the upstream, the HE will throttle
the rate of bandwidth grants, such that the flow never
gets more than its provisioned peak rate in bps.
Similarly at the downstream, HE controls the packets
sent such that flow never gets more than its provisioned
peak rate in bps.
There are two directions for every Service Id (Sid) traffic:
downstream and upstream. Each direction is called a service
flow here and is assigned one token bucket with chosen
algorithm.
The enumerations for the rate limiting algorithm are:
noRateLimit(1): The rate limiting is disabled. No rate
limiting.
oneSecBurst(2): Bursty 1 second token bucket algorithm.
carLike(3) : Average token usage (CAR-like) algorithm
wgtExPacketDiscard(4) : Weighted excess packet discard
algorithm.
shaping(5): token bucket algorithm with shaping
Upstream supports all the above except
wgtExtPacketDiscard(4).
Downstream supports all the above rate-limiting algorithms.
Token bucket algorithm with shaping is the
default algorithm for upstream.
Bursty 1 second token bucket algorithm is the
default algorithm for downstream.
Each algorithm is described as below:
No rate limiting:
The rate limiting process is disabled and no checking
against the maximum bandwidth allowed.
Bursty 1 second token bucket rate limiting algorithm:
In this algorithm, at the start of every 1 second interval,
a service flow's token usage is reset to 0, and every time
the modem for that service flow sends a request (upstream) /
packet (downstream) the upstream/downstream bandwidth
token usage is incremented by the size of the
request/packet sent. As long as the service flow's bandwidth
token usage is less than the maximum bandwidth in bits
per second (peak rate limit) its QoS service class
allows, the request/packets will not be restricted.
Once the service flow has sent more than its peak rate in the
one second interval, it is prevented from sending more
data by rejecting request (upstream) or dropping
packets (downstream). This is expected to slow down
the higher layer sources. The token usage counter gets
reset to 0 after the 1 second interval has elapsed. The
modem for that service flow is free to send more data up to the
peak rate limit in the new 1 second interval that follows.
Average token usage (Cisco CAR like) algorithm:
This algorithm maintains a continuous average of the
burst token usage of a service flow. There is no sudden
refilling of tokens every 1 second interval. Every time a
request/packet is to be handled, the scheduler tries to see
how much time has elapsed since last transmission, and
computes the number of tokens accumulated by this service flow
at its QoS class peak rate. If burst usage of the service flow
is less than tokens accumulated, the burst usage is reset to 0
and request/packet is forwarded. If the service flow has
accumulated fewer tokens than its burst usage, the burst usage
shows an outstanding balance usage after decrementing by the
tokens accumulated. In such cases, the request/packet is still
forwarded, provided the service flow's outstanding usage does
not exceed peak rate limit of its QoS class. If outstanding
burst usage exceeds the peak rate of the class, the service
flow is given some token credit up to a certain maximum credit
limit and the request/packet is forwarded. The request/packet
is dropped when outstanding usage exceeds peak rate and maximum
credit has been used up by this service flow. This algorithm
tracks long term average bandwidth usage of the service flow
and controls this average usage at the peak rate limit.
Weighted excess packet discard algorithm:
This rate limiting algorithm is only available as an option
for downstream rate limiting. The algorithm is to maintain an
weighted exponential moving average of the loss rate of a
service flow over time. The loss rate, expressed in packets,
represents the number of packets that can be sent from this
service flow in a one second interval before a packet will
be dropped. At every one second interval, the loss rate gets
updated using the ratio between the flow peak rate (in bps)
in its QoS profile and the service flow actual usage (in bps).
If the service flow begins to send more than its peak rate
continuously, the number of packets it can send in an one
second interval before experiencing a drop will slowly keep
reducing until SU for that service flow slows down
as indicated by actual usage less or equal to the peak rate.
Token bucket algorithm with shaping:
If there is no QoS class peak rate limit, forward the
request/packet without delay. If there is a QoS peak rate
limit, every time a request/packet is to be handled, the
scheduler determines the number of bandwidth tokens that this
service flow has accumulated over the elapsed time at its
QoS class peak rate and increments the tokens counter of the
service flow accordingly. The scheduler limits the token
count to the maximum transmit burst (token bucket depth).
If token count is greater than the number of tokens required
to handle current request/packet, decrement token count by
size of request/packet and forwards the request/packet
without delay. If token count is less than the size of
request/packet, compute the shaping delay time after
which the deficit number of tokens would be available. If
shaping delay time is less than the maximum shaping delay,
decrement tokens count by size of request/packet and
forward this request/packet with the shaping delay in the
shaping delay queue. When the delay time expires, the
request/packet is forwarded. If shaping delay time is
greater than the maximum shaping delay that the subsequent
shaper can handle, the request/packet is dropped. Users can
use cwdxQosIfRateLimitShpMaxDelay to configure the maximum
shaping delay and cwdxQosIfRateLimitShpGranularity to
configure the shaping granularity.
|
| cwdxQosIfRateLimitExpWgt |
.1.3.6.1.4.1.9.9.169.1.1.2.1.2 |
|
Weight for exponential moving average of loss rate,
when using weighted excess packet discard algorithm.
The higher values of the weight make the algorithm
more sensitive to the recent bandwidth usage by the Sid.
The default value is 1. Whenever the rate limiting
algorithm is changed to weighted excess packet discard
algorithm, this value will be reset to the default 1.
If the rate limiting algorithm is not weighted excess
packet discard algorithm, the value will be always the
default value 1. You will not be able to set it to
anything other than 1 when it is not weighted excess
packet discard algorithm.
|
| cwdxQosIfRateLimitShpMaxDelay |
.1.3.6.1.4.1.9.9.169.1.1.2.1.3 |
|
The maximum shaping delay in milliseconds. That is, the maximum
amount of time for which the HE will allow buffering of any
rate exceeded flow. If the max buffering delay is large,
then grants/packets of the flow will be buffered for a
longer period of time even though the flow is rate exceeded.
This means fewer chances of drops for such rate exceeded
flow. However, too large a max shaping delay can result in
quick drainage of packet buffers at the HE, since several
packets will be in the shaping (delay) queue waiting for
their proper transmission time. Another important point to
note is that delaying a flow's packets (especially TCP
flows) for extended periods of time may be counter-
productive, since the higher protocol layers may assume
a packet loss after a certain amount of time.
The maximum shaping delay is only applied to rate limit
algorithm: Token bucket algorithm with shaping. If the rate
limit algorithm is not Token bucket algorithm with shaping,
the value is always na(1) which is not applicable. In this
case, you will be allowed to set the value to na(1) only.
If the token count is less than the size of request/packet, HE
computes the shaping delay time after which the deficit number of
tokens would be available. If the shaping delay time is greater
than the maximum shaping delay, the request/packet will be
dropped.
The enumerations for cwdxQosIfRateLimitShpMaxDelay are:
na(1): maximum shaping delay is not applied to the current
rate limit algorithm
msec128(2): maximum shaping delay is 128 milliseconds
msec256(3): maximum shaping delay is 256 milliseconds
msec512(4): maximum shaping delay is 512 milliseconds
msec1024(5): maximum shaping delay is 1024 milliseconds
At the downstream, cwdxQosIfRateLimitShpMaxDelay
is configurable and the default value is msec128(2).
Whenever the downstream rate limit algorithm is changed
to Token bucket algorithm with shaping from other rate
limit algorithm, the value will be reset to the default
value.
At the upstream, cwdxQosIfRateLimitShpMaxDelay is not
configurable and it is read-only value.
|
| cwdxQosIfRateLimitShpGranularity |
.1.3.6.1.4.1.9.9.169.1.1.2.1.4 |
|
The width in milliseconds of each element in shaping
delay queue, that is, the shaping granularity.
The shaping granularity is only applied to rate limit
algorithm: Token bucket algorithm with shaping. It
controls how accurately the algorithm quantizes the shaping
delay for a rate exceeded flow. If granularity is large, several
shaping delay values will all be quantized to the same element
in the queue resulting in less accurate rate shaping for the flows
in bits/sec. On the other hand, choosing too small granularity
causes more memory to be used for the shaper block, and also
can cost a bit more in runtime overhead.
If the rate limit algorithm is not Token bucket algorithm with
shaping, the value is always na(1) which is not applicable.
Setting to any thing other than na(1) will be rejected.
The enumerations for shaping granularity are:
na(1): shaping granularity is not applied to the current
rate limit algorithm
msec1(2): shaping granularity in 1 milliseconds
msec2(3): shaping granularity in 2 milliseconds
msec4(4): shaping granularity in 4 milliseconds
msec8(5): shaping granularity in 8 milliseconds
msec16(6): shaping granularity in 16 milliseconds
At the downstream, this object is configurable and the
default value is msec4(4). Whenever the downstream rate limit
algorithm is changed to Token bucket algorithm with shaping
from other rate limit algorithm, the value will be reset to the
default value. When the algorithm is Token bucket algorithm
with shaping and set to same algorithm again the value will
not be reset to default value.
At the upstream, this object is not configurable and
it is read-only value.
|
| cwdxIfHeServiceOutOctets |
.1.3.6.1.4.1.9.9.169.1.1.3.1.1 |
|
The cumulative number of Packet Data octets sent for this
Service ID.
|
| cwdxIfHeServiceOutPackets |
.1.3.6.1.4.1.9.9.169.1.1.3.1.2 |
|
The cumulative number of Packet data packets sent for this
Service ID.
|
| cwdxQosMaxUpBWExcessRequests |
.1.3.6.1.4.1.9.9.169.1.1.3.1.3 |
|
The number of upstream bandwidth requests which exceeds the
maximum upstream bandwidth allowed for a service defined
in the Quality of Service profile associated with this Sid.
The request which exceeds the maximum upstream bandwidth
allowed will be rejected by the upstream's rate limiting
process using one of the rate limiting algorithm.
Note that the value of this counter cannot be directly used
to know the number of upstream packets that got dropped at
the SU. A single upstream packet drop of a SU
can result in up to 16 increments in this counter, since the
SU keeps retrying and keeps getting bandwidth request
drops at HE if it has consumed its peak rate.
|
| cwdxQosMaxDownBWExcessPackets |
.1.3.6.1.4.1.9.9.169.1.1.3.1.4 |
|
The number of downstream bandwidth packets which exceeds the
maximum downstream bandwidth allowed for a service defined
in the Quality of Service profile associated with this Sid.
The packet which exceeds the maximum downstream bandwidth
allowed will be dropped by the downstream's rate limiting
process using one of the rate limiting algorithm.
|
| cwdxBWQueueNameCode |
.1.3.6.1.4.1.9.9.169.1.2.1.1.1 |
|
The name code for the queue.
cirQ: CIR queue. The queue is for Committed Information Rate
(CIR) type of service which serves Service IDs which have
minimum guaranteed rate in its QoS profile.
tbeQ: TBE queue. The queue is for TIERED BEST EFFORT type
service which serves Service IDs which does not have
minimum guaranteed rate in its QoS profile.
|
| cwdxBWQueueOrder |
.1.3.6.1.4.1.9.9.169.1.2.1.1.2 |
|
The relative order of this queue to the other queues within the
wireless interface. The smaller number has higher order. That is,
0 is the highest order and 10 is the lowest order. The
scheduler will serve the requests in higher order queue up to
the number of requests defined in cwdxBWQueueNumServedBeforeYield
before serving requests in the next higher order queue.
The queues with higher priority will not be serviced
(once the QueueNumServedBeforeYield number has been hit)
until all remaining queues are processed.
If there are n queues on this interface, the queue order will
be 0 to n-1 and maximum number of requests defined as
cwdxBWQueueNumServedBeforeYield in order 0 queue will be served
before the requests in order 1 queue to be served.
|
| cwdxBWQueueNumServedBeforeYield |
.1.3.6.1.4.1.9.9.169.1.2.1.1.3 |
|
The maximum number of requests/packets the scheduler can serve
before yielding to another queue. The value 0 means all requests
must be served before yielding to another queue.
|
| cwdxBWQueueType |
.1.3.6.1.4.1.9.9.169.1.2.1.1.4 |
|
The queuing type which decides the position of a request/packet
within the queue.
unknown : queue type unknown.
other : not fifo, and not priority.
fifo : first in first out.
priority: each bandwidth request has a priority and the
position of the request within the queue depends
on its priority.
|
| cwdxBWQueueMaxDepth |
.1.3.6.1.4.1.9.9.169.1.2.1.1.5 |
|
The maximum number of requests/packets which the queue can
support.
|
| cwdxBWQueueDepth |
.1.3.6.1.4.1.9.9.169.1.2.1.1.6 |
|
The current number of requests/packets in the queue.
|
| cwdxBWQueueDiscards |
.1.3.6.1.4.1.9.9.169.1.2.1.1.7 |
|
The number of requests/packets discarded because of queue
overflow (queue depth > queue maximum depth).
|
| cwdxCpeStatusIndex |
.1.3.6.1.4.1.9.9.169.1.3.1.1.1 |
|
Index to an entry in cwdIfHeSuStatusTable identifying
status of the SU (which the CPE connects to.)
|
| cwdxCpeMacAddress |
.1.3.6.1.4.1.9.9.169.1.3.1.1.2 |
|
The Mac address to identify a Customer Premises Equipment.
|
| cwdxCpeIpAddress |
.1.3.6.1.4.1.9.9.169.1.3.1.1.3 |
|
Ip address of the Customer Premises Equipment.
|
| cwdxCpeAccessGroup |
.1.3.6.1.4.1.9.9.169.1.3.1.1.4 |
|
ASCII text to identify the Access Group for a CPE.
Access Group is to filter the upstream traffic for that
CPE.
|
| cwdxSuMappingMacAddress |
.1.3.6.1.4.1.9.9.169.1.3.2.1.2 |
|
The Mac address to identify a Subscriber-unit.
|
| cwdxSuMappingStatusIndex |
.1.3.6.1.4.1.9.9.169.1.3.2.1.1 |
|
Index to an entry in cwdIfHeSuStatusTable identifying
status of the SU.
|
| cwdxHeSuStatusValue |
.1.3.6.1.4.1.9.9.169.1.3.3.1.1 |
|
Current Subscriber-unit connectivity state. The object extends
states in cwdIfHeSuStatusValue in more detail.
The enumerations are:
offline(1) : SU considered offline.
others(2) : states is in cwdIfHeSuStatusValue.
initRangingRcvd(3) : SU sent initial ranging.
initDhcpReqRcvd(4) : dhcp request received.
onlineNetAccessDisabled(5): SU registered, but network
access for the SU is disabled.
onlineKekAssigned(6) : SU registered, BPI enabled and KEK
assigned.
onlineTekAssigned(7) : SU registered, BPI enabled and TEK
assigned.
rejectBadMic(8) : SU did attempt to register but
registration was refused due to bad mic.
rejectBadCos(9) : SU did attempt to register but
registration was refused due to bad COS.
kekRejected(10) : KEK SU key assignment rejected.
tekRejected(11) : TEK SU key assignment rejected.
online(12) : SU registered, enabled for data.
initTftpPacketRcvd(13): tftp packet received and option file
transfer started.
initTodRquestRcvd(14): Time of the Day (TOD) request received.
The ranging, rangingAborted, rangingComplete, and ipComplete
states in cwdIfHeSuStatusValue are all represented
by the 'others' value in this object.
The registrationComplete state in cwdIfHeSuStatusValue
could be online, onlineNetAccessDisabled, onlineKekAssigned, or
onlineTekAssigned in this object.
The accessDenied state in cwdIfHeSuStatusValue could be
rejectBadMic, rejectBadCos in this object for the possible
reasons of Subscriber-unit registration abort.
The HE only reports states it is able to detect.
|
| cwdxIfHeSuStatusOnlineTimes |
.1.3.6.1.4.1.9.9.169.1.3.3.1.2 |
|
The number of times that the SU changes the connectivity
state from 'offline' to 'online' over the time period from
the SU's first ranging message received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as 'offline'
for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusPercentOnline |
.1.3.6.1.4.1.9.9.169.1.3.3.1.3 |
|
The percentage of time that the SU stays 'online' over
the time period from the SU's first ranging message
received by HE until now.
The value for this object is 100 times bigger than the real
percentage value. For example, 32.15% will be value 3215.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusMinOnlineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.4 |
|
The minimum period of time the SU stayed 'online' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusAvgOnlineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.5 |
|
The average period of time the SU stayed 'online' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusMaxOnlineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.6 |
|
The maximum period of time the SU stayed 'online' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusMinOfflineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.7 |
|
The minimum period of time SU stayed 'offline' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusAvgOfflineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.8 |
|
The average period of time the SU stayed 'offline' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusMaxOfflineTime |
.1.3.6.1.4.1.9.9.169.1.3.3.1.9 |
|
The maximum period of time the SU stayed 'offline' over
the time period from the SU's first ranging message
received by HE until now.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxIfHeSuStatusDynSidCount |
.1.3.6.1.4.1.9.9.169.1.3.3.1.10 |
|
The number of active dynamic sids on this SU.
|
| cwdxHeSuOnOffTrapEnable |
.1.3.6.1.4.1.9.9.169.1.3.4.1.1 |
|
An indication of whether the cwdxHeSuOnOffNotification
is enabled. The default value is false(2).
|
| cwdxHeSuOnOffTrapInterval |
.1.3.6.1.4.1.9.9.169.1.3.4.1.2 |
|
The interval for cwdxHeSuOnOffNotification sent by HE for
one online/offline state change if cwdxHeSuOnOffTrapEnable
is true.
If there are more than one state changes to online/offline
for a Subscriber-unit during this interval, only one
cwdxHeSuOnOffNotification is sent by HE for the first
state change to online and one cwdxHeSuOnOffNotification
for the first state changing to offline if
cwdxHeSuOnOffTrapEnable is true.
This is to avoid too many notifications sent for a
SU online/offline state changes during a short period
of time.
If the value is 0, then cwdxHeSuOnOffNotification will be
sent for every state change to online/offline for a
SU if cwdxHeSuOnOffTrapEnable is true.
This object's value will be retained even if the
cwdxHeSuOnOffTrapEnable value changes. Thus disabling
notifications will not result in this object's value
being reset tot he default value.
The default value is 600 seconds.
|
| cwdxHeSuDefaultMaxCpes |
.1.3.6.1.4.1.9.9.169.1.3.4.1.3 |
|
The default maximum number of permitted CPEs per SU
in this wireless interface. A SU can override this
value by setting the object cwdxHeSuMaxCpeNumber
in the cwdxHeSuTable.
The value 0 means no maximum limit.
The default value for this object is 0.
Setting the value will not affect the already connected
CPEs to the SUs in this wireless interface.
|
| cwdxHeTotalSusRegistered |
.1.3.6.1.4.1.9.9.169.1.3.4.1.4 |
|
Total number of SUs that successfully registered at
least once with this HE. This count will be decremented
whenever the SUs are aged out at the HE.
|
| cwdxHeTotalSusOffline |
.1.3.6.1.4.1.9.9.169.1.3.4.1.5 |
|
Total number of SU's that are offline at this time.
The SU is considered as 'online' when the value for
cwdxHeSuStatusValue is any of the values: online(5),
onlineNetAccessDisabled(6), onlineKekAssigned(7), and
onlineTekAssigned(8), and the SU is considered as
'offline' for other values for cwdxHeSuStatusValue.
|
| cwdxHeSuChOverSerialNumber |
.1.3.6.1.4.1.9.9.169.1.3.6.1.1 |
|
Object which specifies a unique entry in the
table. A management station wishing to initiate a
channel override operation should use a pseudo-random
value for this object when creating or modifying an
instance of a cwdxHeSuChOverEntry.
|
| cwdxHeSuChOverMacAddress |
.1.3.6.1.4.1.9.9.169.1.3.6.1.2 |
|
The mac address of the Subscriber-unit that the HE instructs to
move to a new downstream and/or upstream channel.
This column must be set to a valid Mac address currently in
the HE in order for this entry's row status to be set to
active successfully.
|
| cwdxHeSuChOverDownFrequency |
.1.3.6.1.4.1.9.9.169.1.3.6.1.3 |
|
The new downstream frequency which the Subscriber-unit is
instructed to move to. The value 0 is to ask the HE not to
override the downstream frequency.
|
| cwdxHeSuChOverUpChannelId |
.1.3.6.1.4.1.9.9.169.1.3.6.1.4 |
|
The new channel Id which the Subscriber-unit is instructed to
move to. The value -1 is to ask the HE not to override
the upstream channel Id.
|
| cwdxHeSuChOverTrapOnCompletion |
.1.3.6.1.4.1.9.9.169.1.3.6.1.5 |
|
Specifies whether or not a cwdxHeSuChOverNotification
should be issued on completion of the operation. If such a
notification is desired, it is the responsibility of the
management entity to ensure that the SNMP administrative model
is configured in such a way as to allow the notification to be
delivered.
|
| cwdxHeSuChOverOpInitiatedTime |
.1.3.6.1.4.1.9.9.169.1.3.6.1.6 |
|
The value of sysUpTime at which the operation was initiated.
Since it is possible to have more than one entry in this
table for a Subscriber-unit, this object can help to distinguish
the entries for the same Subscriber-unit.
|
| cwdxHeSuChOverState |
.1.3.6.1.4.1.9.9.169.1.3.6.1.7 |
|
The status of the specified channel override operation.
The enumerations are:
messageSent(1): the HE has sent a RNG-RSP message
with channel override to the Subscriber-unit.
commandNotActive(2): the command is not in active mode
due to this entry's row status is not
in active yet.
noOpNeeded(3): The downstream frequency and the upstream
channel Id in this entry are the same as
original ones when this entry's row status
is set to active, so HE does not need to
do any operation.
SuNotFound(4): The SU is not found in the HE
at the time when the command becomes
active.
waitToSendMessage(5): specified the operation is active
and HE is waiting to send
a RNG-RSP message with channel
override to the Subscriber-unit.
timeOut(6): specified the operation is timed out.
That is, the HE cannot send a RNG-RSP message
with channel override to the Subscriber-unit within
the time specified in the object of
cwdxHeSuChOverTimeExpiration.
The possible reason is that the Subscriber-unit
does not repeat the initial ranging.
The possible state change diagram is as below:
[commandNotActive ->] waitToSendMessage ->
messageSent or timeOut.
[commandNotActive ->] noOpNeeded or SuNotFound.
|
| cwdxHeSuChOverRowStatus |
.1.3.6.1.4.1.9.9.169.1.3.6.1.8 |
|
The status of this table entry.
This value for cwdxHeSuChOverMacAddress must be valid Mac
address currently in the HE in order for the row
status to be set to active successfully.
Once the row status becomes active and state becomes
waitToSendMessage, the entry cannot not be changed except
to delete the entry by setting the row status to destroy(6)
and since the operation cannot be stopped, the destroy(6)
will just cause the SNMP agent to hide the entry from
application and the SNMP agent will delete the entry
right after the operation is completed.
|
| cwdxHeSuMaxCpeNumber |
.1.3.6.1.4.1.9.9.169.1.3.7.1.1 |
|
The maximum number of permitted CPEs connecting to the
SU.
The value -1 means to use the default value of maximum
hosts per SU in the HE wireless interface which the SU
connects to and the value is defined in
cwdxHeSuDefaultMaxCpes in the cwdxHeMacExtTable.
The value 0 means no maximum limit.
The default value is -1.
Setting the value will not affect the already connected
CPEs to the SU.
|
| cwdxQosProfGrantInterval |
.1.3.6.1.4.1.9.9.169.1.4.1.1.1 |
|
The value of this parameter specifies the interval
between successive data grant opportunities for a
service flow. This object is required for
Unsolicited Grant and Unsolicited Grant with
Activity Detection Service Flows. This object is
optional for Real-Time Polling Service Flows.
|
| cwdxQosProfGrantSize |
.1.3.6.1.4.1.9.9.169.1.4.1.1.2 |
|
This parameter specifies the unsolicited grant size.
|
| cwdxQosProfName |
.1.3.6.1.4.1.9.9.169.1.4.1.1.3 |
|
This object is a string used to describe this Qos
Profile. It has informational significance only.
|
| cwdxQosProfTosOverwriteMask |
.1.3.6.1.4.1.9.9.169.1.4.1.1.4 |
|
This object is the bit mask (8 bit wide) for
tos-overwrite feature. The
cwdxQosProfTosOverwriteValue is written where the
mark bits are set to 1.
Tos-overwrite allows the HE to mark egress IP packets
(from the HE) with a specific TOS value. This relieves
the subscriber unit from marking upstream packets with
a specific TOS and is most useful when a subscriber
unit is supplied by a third party vendor who may not
have the option of applying a TOS to an IP packet.
Each packet received from an SU that matches this QoS
profile will be tagged with the TOS-overwrite value
at the cwdxQosProfTosOverwriteMask and sent to the
network.
|
| cwdxQosProfTosOverwriteValue |
.1.3.6.1.4.1.9.9.169.1.4.1.1.5 |
|
This object is the byte value for tos-overwrite. The
cwdxQosProfTosOverwriteValue is written where the mark
bits are set to 1.
Each packet received from an SU that matches this QoS
profile will be tagged with the
cwdxQosProfTosOverwriteValue value at the
cwdxQosProfTosOverwriteMask and sent to the
network.
|
| cwdxQosIpTosRatelimitIndex |
.1.3.6.1.4.1.9.9.169.1.4.2.1.1 |
|
The index value along with the primary index of
cwdIfQosProfIndex which uniquely identifies an entry
in the cwdxQosIpTosRatelimitEntry.
|
| cwdxQosIpTosRatelimitMaxDownRate |
.1.3.6.1.4.1.9.9.169.1.4.2.1.2 |
|
Maximum downstream rate that can be allowed with
this IP precedence.
|
