IEEE 802.11abg Model
The IEEE 802.11abg radio model provides the following set of features:
-
Supports flow control.
-
Supports the following waveform modes and data rates with the appropriate timing:
-
802.11b (DSS rates: 1, 2, 5.5 and 11 Mbps)
-
802.11a/g (OFDM rates: 6, 9, 12, 18, 24, 36, 48 and 54 Mbps)
-
802.11b/g (DSS and OFDM rates)
-
Supports only the DCF channel access function. PCF and beacon transmissions are not supported.
-
Supports both unicast and broadcast transmissions. Unicast transmissions include the ability to emulate control message (RTS/CTS) behavior as well as retries without actually transmitting the control messages or the re-transmission of the data message. The emulation of unicast does not replicate exponential growth of the contention window as a result of detected failures.
-
Supports Wi-Fi multimedia (WMM) capabilities. The initial implementation supports the ability to classify four different traffic classes (Background, Best Effort, Video and Voice) where the higher priority classes (voice and video) are serviced first.
-
Supports user defined Packet Completion Rate curves as a function of SINR.
-
Default curves are provided for each of the supported 802.11 modulation and data rate combinations. Default curves are based on theoretical equations for determining Bit Error Rate (BER) in an Additive White Gaussian Noise (AWGN) channel.
-
The IEEE 802.11abg radio model does adjust the interference on a per packet basis based on detected collisions and as such supports negative SINR values as can be seen in the default curves
The IEEE 802.11abg Packet Completion Rate is specified as curves defined via XML. The curve definitions are comprised of a series SINR values along with their corresponding probability of reception. A curve definition must contain a minimum of two points with one SINR representing POR = 0 and one SINR representing POR = 100. Linear interpolation is preformed when an exact SINR match is not found.
Specifying a packet size (<table> attribute pktsize) in the curve file will adjust the POR based on received packet size. Specifying a pktsize of 0 disregards received packet size when computing the POR.
The POR is obtained using the following calculation when a non-zero pktsize is specified:
POR = POR0^(S1/S0)
Where,
POR0 is the POR value determined from the PCR curve for the given SINR value
S0 is the packet size specified in the curve file (pktsize)
S1 is the received packet size
The emulator provides the following default PCR curve definition.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE pcr SYSTEM "file:///usr/share/emane/dtd/ieee80211pcr.dtd">
<pcr>
<table pktsize="128">
<!-- 1Mpbs -->
<datarate index="1">
<row sinr="-9.0" por="0.0"/>
<row sinr="-8.0" por="1.4"/>
<row sinr="-7.0" por="21.0"/>
<row sinr="-6.0" por="63.5"/>
<row sinr="-5.0" por="90.7"/>
<row sinr="-4.0" por="98.6"/>
<row sinr="-3.0" por="99.9"/>
<row sinr="-2.0" por="100.0"/>
</datarate>
<!-- 2Mpbs -->
<datarate index="2">
<row sinr="-6.0" por="0"/>
<row sinr="-5.0" por="1.4"/>
<row sinr="-4.0" por="20.6"/>
<row sinr="-3.0" por="63.1"/>
<row sinr="-2.0" por="90.5"/>
<row sinr="-1.0" por="98.5"/>
<row sinr="0.0" por="99.9"/>
<row sinr="1.0" por="100.0"/>
</datarate>
<!-- 5.5Mpbs -->
<datarate index="3">
<row sinr="-2.0" por="0.0"/>
<row sinr="-1.0" por="0.2"/>
<row sinr="0.0" por="9.1"/>
<row sinr="1.0" por="46.2"/>
<row sinr="2.0" por="82.8"/>
<row sinr="3.0" por="96.7"/>
<row sinr="4.0" por="99.6"/>
<row sinr="5.0" por="100.0"/>
</datarate>
<!-- 11Mpbs -->
<datarate index="4">
<row sinr="1.0" por="0.0"/>
<row sinr="2.0" por="0.2"/>
<row sinr="3.0" por="8.9"/>
<row sinr="4.0" por="45.8"/>
<row sinr="5.0" por="82.5"/>
<row sinr="6.0" por="96.7"/>
<row sinr="7.0" por="99.6"/>
<row sinr="8.0" por="100.0"/>
</datarate>
<!-- 6Mpbs -->
<datarate index="5">
<row sinr="-2.0" por="0.0"/>
<row sinr="-1.0" por="5.5"/>
<row sinr="0.0" por="39.8"/>
<row sinr="1.0" por="79.0"/>
<row sinr="2.0" por="96.0"/>
<row sinr="3.0" por="99.5"/>
<row sinr="4.0" por="100.0"/>
</datarate>
<!-- 9Mpbs -->
<datarate index="6">
<row sinr="-1.0" por="0.0"/>
<row sinr="0.0" por="0.3"/>
<row sinr="1.0" por="10.5"/>
<row sinr="2.0" por="50.3"/>
<row sinr="3.0" por="84.9"/>
<row sinr="4.0" por="97.5"/>
<row sinr="5.0" por="99.7"/>
<row sinr="6.0" por="100.0"/>
</datarate>
<!-- 12Mpbs -->
<datarate index="7">
<row sinr="3.0" por="0.0"/>
<row sinr="4.0" por="14.3"/>
<row sinr="5.0" por="55.2"/>
<row sinr="6.0" por="87.5"/>
<row sinr="7.0" por="97.8"/>
<row sinr="8.0" por="99.8"/>
<row sinr="9.0" por="100.0"/>
</datarate>
<!-- 18Mpbs -->
<datarate index="8">
<row sinr="4.0" por="0.0"/>
<row sinr="5.0" por="1.7"/>
<row sinr="6.0" por="21.5"/>
<row sinr="7.0" por="65.0"/>
<row sinr="8.0" por="91.2"/>
<row sinr="9.0" por="98.7"/>
<row sinr="10.0" por="99.9"/>
<row sinr="11.0" por="100.0"/>
</datarate>
<!-- 24Mpbs -->
<datarate index="9">
<row sinr="9.0" por="0.0"/>
<row sinr="10.0" por="2.2"/>
<row sinr="11.0" por="23.8"/>
<row sinr="12.0" por="64.4"/>
<row sinr="13.0" por="90.4"/>
<row sinr="14.0" por="98.4"/>
<row sinr="15.0" por="99.8"/>
<row sinr="16.0" por="100.0"/>
</datarate>
<!-- 36Mpbs -->
<datarate index="10">
<row sinr="10.0" por="0.0"/>
<row sinr="11.0" por="0.1"/>
<row sinr="12.0" por="4.6"/>
<row sinr="13.0" por="32.4"/>
<row sinr="14.0" por="72.8"/>
<row sinr="15.0" por="93.4"/>
<row sinr="16.0" por="99.0"/>
<row sinr="17.0" por="99.9"/>
<row sinr="18.0" por="100.0"/>
</datarate>
<!-- 48Mpbs -->
<datarate index="11">
<row sinr="16.0" por="0.0"/>
<row sinr="17.0" por="1.3"/>
<row sinr="18.0" por="15.8"/>
<row sinr="19.0" por="53.5"/>
<row sinr="20.0" por="84.9"/>
<row sinr="21.0" por="96.8"/>
<row sinr="22.0" por="99.6"/>
<row sinr="23.0" por="100.0"/>
</datarate>
<!-- 54Mpbs -->
<datarate index="12">
<row sinr="17.0" por="0.0"/>
<row sinr="18.0" por="0.2"/>
<row sinr="19.0" por="5.7"/>
<row sinr="20.0" por="32.4"/>
<row sinr="21.0" por="71.3"/>
<row sinr="22.0" por="92.4"/>
<row sinr="23.0" por="99.9"/>
<row sinr="24.0" por="100.0"/>
</datarate>
</table>
</pcr>The above definition produces the following PCR curves for IEEE 802.11b (DSS):
The above definition produces the following PCR curves for IEEE 802.11ag (OFDM):
The following configuration parameters are available to tailor layer functionality:
- aifs0
- aifs1
- aifs2
- aifs3
- channelactivityestimationtimer
- cwmax0
- cwmax1
- cwmax2
- cwmax3
- cwmin0
- cwmin1
- cwmin2
- cwmin3
- distance
- enablepromiscuousmode
- flowcontrolenable
- flowcontroltokens
- mode
- msdu0
- msdu1
- msdu2
- msdu3
- multicastrate
- neighbormetricdeletetime
- neighbortimeout
- pcrcurveuri
- queuesize0
- queuesize1
- queuesize2
- queuesize3
- radiometricenable
- radiometricreportinterval
- retrylimit0
- retrylimit1
- retrylimit2
- retrylimit3
- rtsthreshold
- txop0
- txop1
- txop2
- txop3
- unicastrate
- wmmenable
Defines the arbitration inter frame spacing time for category 0 and contributes to the calculation of channel access overhead when transmitting category 0 packets. If WMM is disabled, aifs0 is used for all traffic.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,0.000255]
Default Value(s): 0.000002
Defines the arbitration inter frame spacing time for category 1 and contributes to the calculation of channel access overhead when transmitting category 1 packets.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,0.000255]
Default Value(s): 0.000002
Defines the arbitration inter frame spacing time for category 2 and contributes to the calculation of channel access overhead when transmitting category 2 packets.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,0.000255]
Default Value(s): 0.000002
Defines the arbitration inter frame spacing time for category 3 and contributes to the calculation of channel access overhead when transmitting category 3 packets.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,0.000255]
Default Value(s): 0.000001
Defines the channel activity estimation timer in seconds. The timer determines the lag associated with the statistical model used to estimate number of transmitting common and hidden neighbors based on channel activity.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.001000,1.000000]
Default Value(s): 0.100000
Defines the maximum contention window size in slots for category 0.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 1024
Defines the maximum contention window size in slots for category 1.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 1024
Defines the maximum contention window size in slots for category 2.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 64
Defines the maximum contention window size in slots for category 3.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 16
Defines the minimum contention window size in slots for category 0.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 32
Defines the minimum contention window size in slots for category 1.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 32
Defines the minimum contention window size in slots for category 2.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 16
Defines the minimum contention window size in slots for category 3.
Type: uint16
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 8
Defines the max propagation distance in meters used to compute slot size.
Where,
slotTime = fixedSlotTime + propagationTime
fixedSlotTime = 9
propagationTime = distance/300
Type: uint32
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,4294967295]
Default Value(s): 1000
Defines whether promiscuous mode is enabled or not. If promiscuous mode is enabled, all received packets (intended for the given node or not) that pass the probability of reception check are sent upstream to the transport.
Type: bool
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [no,yes]
Default Value(s): no
Defines whether flow control is enabled. Flow control only works with the virtual transport and the setting must match the setting within the virtual transport configuration.
Type: bool
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [no,yes]
Default Value(s): no
Defines the maximum number of flow control tokens (packet transmission units) that can be processed from the virtual transport without being refreshed. The number of available tokens at any given time is coordinated with the virtual transport and when the token count reaches zero, no further packets are transmitted causing application socket queues to backup.
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [1,65535]
Default Value(s): 10
Defines the 802.11abg mode of operation. 0|2 = 802.11b (DSS), 1 = 802.11a/g (OFDM), and 3 = 802.11b/g (mixed mode).
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,3]
Default Value(s): 0
MSDU category 0
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,65535]
Default Value(s): 65535
MSDU category 1
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,65535]
Default Value(s): 65535
MSDU category 2
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,65535]
Default Value(s): 65535
MSDU category 3
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,65535]
Default Value(s): 65535
Defines the data rate to be used when transmitting broadcast/multicast packets. The index (1 through 12) to rate (Mbps) mapping is as follows: [1 2 5.5 11 6 9 12 18 24 36 48 54]. DSS rates [1 2 5.5 11] Mbps are valid when mode is set to 802.11b or 802.11b/g. OFDM rates [6 9 12 18 24 36 48 54] Mbps are valid when mode is set to 802.11a/g or 802.11b/g.
Type: uint8
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,12]
Default Value(s): 1
Defines the time in seconds of no RF receptions from a given neighbor before it is removed from the neighbor table.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [1.000000,3660.000000]
Default Value(s): 60.000000
Defines the neighbor timeout in seconds for the neighbor estimation algorithm.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,3600.000000]
Default Value(s): 30.000000
Defines the URI of the Packet Completion Rate (PCR) curve file. The PCR curve file contains probability of reception curves as a function of Signal to Interference plus Noise Ratio (SINR) for each data rate.
Type: string
Running-State Modifiable: no
Value Required: yes
Occurrence Range: [1,1]
Defines the queue size for category 0.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 255
Defines the queue size for category 1.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 255
Defines the queue size for category 2.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 255
Defines the queue size for category 3.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 255
Defines if radio metrics will be reported up via the Radio to Router Interface (R2RI).
Type: bool
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [no,yes]
Default Value(s): no
Defines the metric report interval in seconds in support of the R2RI feature.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.100000,60.000000]
Default Value(s): 1.000000
Defines the maximum number of retries attempted for category 0.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 2
Defines the maximum number of retries attempted for category 1.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 2
Defines the maximum number of retries attempted for category 2.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 2
Defines the maximum number of retries attempted for category 3.
Type: uint8
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,255]
Default Value(s): 2
Defines a threshold in bytes for when RTS/CTS is used as part of the carrier sensing channel access protocol when transmitting unicast packets.
Type: uint16
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0,65535]
Default Value(s): 255
Defines the transmit opportunity time for category 0.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,1.000000]
Default Value(s): 0.000000
Defines the transmit opportunity time for category 1.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,1.000000]
Default Value(s): 0.000000
Defines the transmit opportunity time for category 2.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,1.000000]
Default Value(s): 0.000000
Defines the transmit opportunity time for category 3.
Type: float
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [0.000000,1.000000]
Default Value(s): 0.000000
Defines the data rate to be used when transmitting unicast packets. The index (1 through 12) to rate (Mbps) mapping is as follows: [1 2 5.5 11 6 9 12 18 24 36 48 54]. DSS rates [1 2 5.5 11] Mbps are valid when mode is set to 802.11b or 802.11b/g. OFDM rates [6 9 12 18 24 36 48 54] Mbps are valid when mode is set to 802.11a/g or 802.11b/g.
Type: uint8
Running-State Modifiable: yes
Occurrence Range: [1,1]
Value Range: [1,12]
Default Value(s): 4
Defines if wireless multimedia mode (WMM) is enabled.
Type: bool
Running-State Modifiable: no
Occurrence Range: [1,1]
Value Range: [no,yes]
Default Value(s): no
IEEE 802.11abg configuration is specified using two files:
- NEM definition file
- MAC definition file
The NEM definition file groups the mac definition file along with emulator physical layer configuration and the transport definition file.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE nem SYSTEM "file:///usr/share/emane/dtd/nem.dtd">
<nem>
<transport definition="transvirtual.xml"/>
<mac definition="ieee80211abgmac.xml"/>
<phy>
<param name="fixedantennagain" value="0.0"/>
<param name="fixedantennagainenable" value="on"/>
<param name="bandwidth" value="20M"/>
<param name="noisemode" value="none"/>
<param name="propagationmodel" value="precomputed"/>
<param name="systemnoisefigure" value="4.0"/>
<param name="subid" value="2"/>
<param name="txpower" value="0.0"/>
<param name="subid" value="1"/>
</phy>
</nem>The mac definition file specifies the model DLL the emulator will load and the desired model configuration.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE mac SYSTEM "file:///usr/share/emane/dtd/mac.dtd">
<mac library="ieee80211abgmaclayer">
<param name="mode" value="0"/>
<param name="enablepromiscuousmode" value="off"/>
<param name="distance" value="1000"/>
<param name="unicastrate" value="4"/>
<param name="multicastrate" value="1"/>
<param name="rtsthreshold" value="0"/>
<param name="pcrcurveuri"
value="file:///usr/share/emane/xml/models/mac/ieee80211abg/ieee80211pcr.xml"/>
<param name="flowcontrolenable" value="off"/>
<param name="flowcontroltokens" value="10"/>
</mac>The below statistics can be accessed using emanesh.
| Name | Type | Clearable | Description |
|---|---|---|---|
| avgDownstreamProcessingDelay0 | float | yes | Average downstream processing delay |
| avgDownstreamProcessingDelay1 | float | yes | Average downstream processing delay |
| avgDownstreamProcessingDelay2 | float | yes | Average downstream processing delay |
| avgDownstreamProcessingDelay3 | float | yes | Average downstream processing delay |
| avgProcessAPIQueueDepth | double | yes | Average API queue depth for a processUpstreamPacket, processUpstreamControl, processDownstreamPacket, processDownstreamControl, processEvent and processTimedEvent. |
| avgProcessAPIQueueWait | double | yes | Average API queue wait for a processUpstreamPacket, processUpstreamControl, processDownstreamPacket, processDownstreamControl, processEvent and processTimedEvent in microseconds. |
| avgTimedEventLatency | double | yes | |
| avgTimedEventLatencyRatio | double | yes | Average ratio of the delta between the scheduled timer expiration and the actual firing over the requested duration. An average ratio approaching 1 indicates that timer latencies are large in comparison to the requested durations. |
| avgUpstreamProcessingDelay0 | float | yes | Average upstream processing delay |
| avgUpstreamProcessingDelay1 | float | yes | Average upstream processing delay |
| avgUpstreamProcessingDelay2 | float | yes | Average upstream processing delay |
| avgUpstreamProcessingDelay3 | float | yes | Average upstream processing delay |
| numBroadcastBytesTooLarge0 | uint32 | yes | |
| numBroadcastBytesTooLarge1 | uint32 | yes | |
| numBroadcastBytesTooLarge2 | uint32 | yes | |
| numBroadcastBytesTooLarge3 | uint32 | yes | |
| numBroadcastBytesUnsupported | uint32 | yes | |
| numBroadcastPacketsTooLarge0 | uint32 | yes | |
| numBroadcastPacketsTooLarge1 | uint32 | yes | |
| numBroadcastPacketsTooLarge2 | uint32 | yes | |
| numBroadcastPacketsTooLarge3 | uint32 | yes | |
| numBroadcastPacketsUnsupported | uint32 | yes | |
| numDownstreamBroadcastDataDiscardDueToTxop | uint32 | yes | |
| numDownstreamBytesBroadcastGenerated0 | uint64 | yes | Number of layer generated downstream broadcast bytes |
| numDownstreamBytesBroadcastGenerated1 | uint64 | yes | Number of layer generated downstream broadcast bytes |
| numDownstreamBytesBroadcastGenerated2 | uint64 | yes | Number of layer generated downstream broadcast bytes |
| numDownstreamBytesBroadcastGenerated3 | uint64 | yes | Number of layer generated downstream broadcast bytes |
| numDownstreamBytesBroadcastRx0 | uint64 | yes | Number of downstream broadcast bytes received |
| numDownstreamBytesBroadcastRx1 | uint64 | yes | Number of downstream broadcast bytes received |
| numDownstreamBytesBroadcastRx2 | uint64 | yes | Number of downstream broadcast bytes received |
| numDownstreamBytesBroadcastRx3 | uint64 | yes | Number of downstream broadcast bytes received |
| numDownstreamBytesBroadcastTx0 | uint64 | yes | Number of downstream broadcast bytes transmitted |
| numDownstreamBytesBroadcastTx1 | uint64 | yes | Number of downstream broadcast bytes transmitted |
| numDownstreamBytesBroadcastTx2 | uint64 | yes | Number of downstream broadcast bytes transmitted |
| numDownstreamBytesBroadcastTx3 | uint64 | yes | Number of downstream broadcast bytes transmitted |
| numDownstreamBytesUnicastGenerated0 | uint64 | yes | Number of layer generated downstream unicast bytes |
| numDownstreamBytesUnicastGenerated1 | uint64 | yes | Number of layer generated downstream unicast bytes |
| numDownstreamBytesUnicastGenerated2 | uint64 | yes | Number of layer generated downstream unicast bytes |
| numDownstreamBytesUnicastGenerated3 | uint64 | yes | Number of layer generated downstream unicast bytes |
| numDownstreamBytesUnicastRx0 | uint64 | yes | Number of downstream unicast bytes received |
| numDownstreamBytesUnicastRx1 | uint64 | yes | Number of downstream unicast bytes received |
| numDownstreamBytesUnicastRx2 | uint64 | yes | Number of downstream unicast bytes received |
| numDownstreamBytesUnicastRx3 | uint64 | yes | Number of downstream unicast bytes received |
| numDownstreamBytesUnicastTx0 | uint64 | yes | Number of downstream unicast bytes transmitted |
| numDownstreamBytesUnicastTx1 | uint64 | yes | Number of downstream unicast bytes transmitted |
| numDownstreamBytesUnicastTx2 | uint64 | yes | Number of downstream unicast bytes transmitted |
| numDownstreamBytesUnicastTx3 | uint64 | yes | Number of downstream unicast bytes transmitted |
| numDownstreamPacketsBroadcastDrop0 | uint64 | yes | Number of downstream broadcast packets dropped |
| numDownstreamPacketsBroadcastDrop1 | uint64 | yes | Number of downstream broadcast packets dropped |
| numDownstreamPacketsBroadcastDrop2 | uint64 | yes | Number of downstream broadcast packets dropped |
| numDownstreamPacketsBroadcastDrop3 | uint64 | yes | Number of downstream broadcast packets dropped |
| numDownstreamPacketsBroadcastGenerated0 | uint64 | yes | Number of layer generated downstream broadcast packets |
| numDownstreamPacketsBroadcastGenerated1 | uint64 | yes | Number of layer generated downstream broadcast packets |
| numDownstreamPacketsBroadcastGenerated2 | uint64 | yes | Number of layer generated downstream broadcast packets |
| numDownstreamPacketsBroadcastGenerated3 | uint64 | yes | Number of layer generated downstream broadcast packets |
| numDownstreamPacketsBroadcastRx0 | uint64 | yes | Number of downstream broadcast packets received |
| numDownstreamPacketsBroadcastRx1 | uint64 | yes | Number of downstream broadcast packets received |
| numDownstreamPacketsBroadcastRx2 | uint64 | yes | Number of downstream broadcast packets received |
| numDownstreamPacketsBroadcastRx3 | uint64 | yes | Number of downstream broadcast packets received |
| numDownstreamPacketsBroadcastTx0 | uint64 | yes | Number of downstream broadcast packets transmitted |
| numDownstreamPacketsBroadcastTx1 | uint64 | yes | Number of downstream broadcast packets transmitted |
| numDownstreamPacketsBroadcastTx2 | uint64 | yes | Number of downstream broadcast packets transmitted |
| numDownstreamPacketsBroadcastTx3 | uint64 | yes | Number of downstream broadcast packets transmitted |
| numDownstreamPacketsUnicastDrop0 | uint64 | yes | Number of downstream unicast packets dropped |
| numDownstreamPacketsUnicastDrop1 | uint64 | yes | Number of downstream unicast packets dropped |
| numDownstreamPacketsUnicastDrop2 | uint64 | yes | Number of downstream unicast packets dropped |
| numDownstreamPacketsUnicastDrop3 | uint64 | yes | Number of downstream unicast packets dropped |
| numDownstreamPacketsUnicastGenerated0 | uint64 | yes | Number of layer generated downstream unicast packets |
| numDownstreamPacketsUnicastGenerated1 | uint64 | yes | Number of layer generated downstream unicast packets |
| numDownstreamPacketsUnicastGenerated2 | uint64 | yes | Number of layer generated downstream unicast packets |
| numDownstreamPacketsUnicastGenerated3 | uint64 | yes | Number of layer generated downstream unicast packets |
| numDownstreamPacketsUnicastRx0 | uint64 | yes | Number of downstream unicast packets received |
| numDownstreamPacketsUnicastRx1 | uint64 | yes | Number of downstream unicast packets received |
| numDownstreamPacketsUnicastRx2 | uint64 | yes | Number of downstream unicast packets received |
| numDownstreamPacketsUnicastRx3 | uint64 | yes | Number of downstream unicast packets received |
| numDownstreamPacketsUnicastTx0 | uint64 | yes | Number of downstream unicast packets transmitted |
| numDownstreamPacketsUnicastTx1 | uint64 | yes | Number of downstream unicast packets transmitted |
| numDownstreamPacketsUnicastTx2 | uint64 | yes | Number of downstream unicast packets transmitted |
| numDownstreamPacketsUnicastTx3 | uint64 | yes | Number of downstream unicast packets transmitted |
| numDownstreamUnicastDataDiscardDueToRetries | uint32 | yes | |
| numDownstreamUnicastDataDiscardDueToTxop | uint32 | yes | |
| numDownstreamUnicastRtsCtsDataDiscardDueToRetries | uint32 | yes | |
| numHighWaterMark0 | uint32 | yes | |
| numHighWaterMark1 | uint32 | yes | |
| numHighWaterMark2 | uint32 | yes | |
| numHighWaterMark3 | uint32 | yes | |
| numHighWaterMax0 | uint32 | yes | |
| numHighWaterMax1 | uint32 | yes | |
| numHighWaterMax2 | uint32 | yes | |
| numHighWaterMax3 | uint32 | yes | |
| numOneHopNbrHighWaterMark | uint32 | yes | |
| numRxOneHopNbrListEvents | uint32 | yes | |
| numRxOneHopNbrListInvalidEvents | uint32 | yes | |
| numTwoHopNbrHighWaterMark | uint32 | yes | |
| numTxOneHopNbrListEvents | uint32 | yes | |
| numUnicastBytesTooLarge0 | uint32 | yes | |
| numUnicastBytesTooLarge1 | uint32 | yes | |
| numUnicastBytesTooLarge2 | uint32 | yes | |
| numUnicastBytesTooLarge3 | uint32 | yes | |
| numUnicastBytesUnsupported | uint32 | yes | |
| numUnicastPacketsTooLarge0 | uint32 | yes | |
| numUnicastPacketsTooLarge1 | uint32 | yes | |
| numUnicastPacketsTooLarge2 | uint32 | yes | |
| numUnicastPacketsTooLarge3 | uint32 | yes | |
| numUnicastPacketsUnsupported | uint32 | yes | |
| numUpstreamBroadcastDataDiscardDueToClobberRxDuringTx | uint32 | yes | |
| numUpstreamBroadcastDataDiscardDueToClobberRxHiddenBusy | uint32 | yes | |
| numUpstreamBroadcastDataDiscardDueToSinr | uint32 | yes | |
| numUpstreamBroadcastDataNoiseHiddenRx | uint32 | yes | |
| numUpstreamBroadcastDataNoiseRxCommon | uint32 | yes | |
| numUpstreamBytesBroadcastRx0 | uint64 | yes | Number of upstream broadcast bytes received |
| numUpstreamBytesBroadcastRx1 | uint64 | yes | Number of upstream broadcast bytes received |
| numUpstreamBytesBroadcastRx2 | uint64 | yes | Number of upstream broadcast bytes received |
| numUpstreamBytesBroadcastRx3 | uint64 | yes | Number of upstream broadcast bytes received |
| numUpstreamBytesBroadcastTx0 | uint64 | yes | Number of updtream broadcast bytes transmitted |
| numUpstreamBytesBroadcastTx1 | uint64 | yes | Number of updtream broadcast bytes transmitted |
| numUpstreamBytesBroadcastTx2 | uint64 | yes | Number of updtream broadcast bytes transmitted |
| numUpstreamBytesBroadcastTx3 | uint64 | yes | Number of updtream broadcast bytes transmitted |
| numUpstreamBytesUnicastRx0 | uint64 | yes | Number upstream unicast bytes received |
| numUpstreamBytesUnicastRx1 | uint64 | yes | Number upstream unicast bytes received |
| numUpstreamBytesUnicastRx2 | uint64 | yes | Number upstream unicast bytes received |
| numUpstreamBytesUnicastRx3 | uint64 | yes | Number upstream unicast bytes received |
| numUpstreamBytesUnicastTx0 | uint64 | yes | Number of upstream unicast bytes transmitted |
| numUpstreamBytesUnicastTx1 | uint64 | yes | Number of upstream unicast bytes transmitted |
| numUpstreamBytesUnicastTx2 | uint64 | yes | Number of upstream unicast bytes transmitted |
| numUpstreamBytesUnicastTx3 | uint64 | yes | Number of upstream unicast bytes transmitted |
| numUpstreamPacketsBroadcastDrop0 | uint64 | yes | Number of upstream broadcast packets dropped |
| numUpstreamPacketsBroadcastDrop1 | uint64 | yes | Number of upstream broadcast packets dropped |
| numUpstreamPacketsBroadcastDrop2 | uint64 | yes | Number of upstream broadcast packets dropped |
| numUpstreamPacketsBroadcastDrop3 | uint64 | yes | Number of upstream broadcast packets dropped |
| numUpstreamPacketsBroadcastRx0 | uint64 | yes | Number of upstream broadcast packets received |
| numUpstreamPacketsBroadcastRx1 | uint64 | yes | Number of upstream broadcast packets received |
| numUpstreamPacketsBroadcastRx2 | uint64 | yes | Number of upstream broadcast packets received |
| numUpstreamPacketsBroadcastRx3 | uint64 | yes | Number of upstream broadcast packets received |
| numUpstreamPacketsBroadcastTx0 | uint64 | yes | Number of upstream broadcast packets transmitted |
| numUpstreamPacketsBroadcastTx1 | uint64 | yes | Number of upstream broadcast packets transmitted |
| numUpstreamPacketsBroadcastTx2 | uint64 | yes | Number of upstream broadcast packets transmitted |
| numUpstreamPacketsBroadcastTx3 | uint64 | yes | Number of upstream broadcast packets transmitted |
| numUpstreamPacketsUnicastDrop0 | uint64 | yes | Number of upstream unicast packets dropped |
| numUpstreamPacketsUnicastDrop1 | uint64 | yes | Number of upstream unicast packets dropped |
| numUpstreamPacketsUnicastDrop2 | uint64 | yes | Number of upstream unicast packets dropped |
| numUpstreamPacketsUnicastDrop3 | uint64 | yes | Number of upstream unicast packets dropped |
| numUpstreamPacketsUnicastRx0 | uint64 | yes | Number upstream unicast packets received |
| numUpstreamPacketsUnicastRx1 | uint64 | yes | Number upstream unicast packets received |
| numUpstreamPacketsUnicastRx2 | uint64 | yes | Number upstream unicast packets received |
| numUpstreamPacketsUnicastRx3 | uint64 | yes | Number upstream unicast packets received |
| numUpstreamPacketsUnicastTx0 | uint64 | yes | Number of upstream unicast packets transmitted |
| numUpstreamPacketsUnicastTx1 | uint64 | yes | Number of upstream unicast packets transmitted |
| numUpstreamPacketsUnicastTx2 | uint64 | yes | Number of upstream unicast packets transmitted |
| numUpstreamPacketsUnicastTx3 | uint64 | yes | Number of upstream unicast packets transmitted |
| numUpstreamUnicastDataDiscardDueToClobberRxDuringTx | uint32 | yes | |
| numUpstreamUnicastDataDiscardDueToClobberRxHiddenBusy | uint32 | yes | |
| numUpstreamUnicastDataDiscardDueToSinr | uint32 | yes | |
| numUpstreamUnicastDataNoiseHiddenRx | uint32 | yes | |
| numUpstreamUnicastDataNoiseRxCommon | uint32 | yes | |
| numUpstreamUnicastRtsCtsDataRxFromPhy | uint32 | yes | |
| numUpstreamUnicastRtsCtsRxFromPhy | uint32 | yes | |
| processedConfiguration | uint64 | yes | |
| processedDownstreamControl | uint64 | yes | |
| processedDownstreamPackets | uint64 | yes | |
| processedEvents | uint64 | yes | |
| processedTimedEvents | uint64 | yes | |
| processedUpstreamControl | uint64 | yes | |
| processedUpstreamPackets | uint64 | yes |
The below statistics can be accessed using emanesh.
| Name | Clearable | Description |
|---|---|---|
| BroadcastPacketAcceptTable0 | yes | Broadcast packets accepted |
| BroadcastPacketAcceptTable1 | yes | Broadcast packets accepted |
| BroadcastPacketAcceptTable2 | yes | Broadcast packets accepted |
| BroadcastPacketAcceptTable3 | yes | Broadcast packets accepted |
| BroadcastPacketDropTable0 | yes | Broadcast packets dropped by reason code |
| BroadcastPacketDropTable1 | yes | Broadcast packets dropped by reason code |
| BroadcastPacketDropTable2 | yes | Broadcast packets dropped by reason code |
| BroadcastPacketDropTable3 | yes | Broadcast packets dropped by reason code |
| EventReceptionTable | yes | Received event counts |
| NeighborMetricTable | no | Neighbor Metric Table |
| NeighborStatusTable | no | Neighbor Status Table |
| OneHopNeighborTable | no | Current One Hop Neighbors |
| TwoHopNeighborTable | no | Current Two Hop Neighbors |
| UnicastPacketAcceptTable0 | yes | Unicast packets accepted |
| UnicastPacketAcceptTable1 | yes | Unicast packets accepted |
| UnicastPacketAcceptTable2 | yes | Unicast packets accepted |
| UnicastPacketAcceptTable3 | yes | Unicast packets accepted |
| UnicastPacketDropTable0 | yes | Unicast packets dropped by reason code |
| UnicastPacketDropTable1 | yes | Unicast packets dropped by reason code |
| UnicastPacketDropTable2 | yes | Unicast packets dropped by reason code |
| UnicastPacketDropTable3 | yes | Unicast packets dropped by reason code |