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show ap debug client-stats

show ap debug client-stats

client-mac <client_mac> [advanced]

Description

This command shows the detailed statistics about a client from an AP.

Syntax

Parameter

Description

Range

Default

client-mac <client_mac> [advanced]

Shows detailed statistics about a specified client MACMedia Access Control. A MAC address is a unique identifier assigned to network interfaces for communications on a network. .

[advanced]

Shows additional statistics.

Usage Guidelines

This command shows the detailed statistics about a client from an AP. For the remaining parameters, see the command syntax.

Example

The following command shows additional statistics for packets received from and transmitted to a specified client.

(host) [mynode] #show ap debug client-stats client-mac 00:19:7e:89:fa:e7 advanced

 

Station Stats

-------------

Parameter Value

--------- -----

---------------- General Per-radio Statistics

---------------- Transmit specific Statistics

Frames Rcvd For TX 22

Tx Frames Dropped 0

Frames Transmitted 22

Success With Retry 1

Tx Mgmt Frames 2

Tx Probe Responses 0

Tx Data Frames 20

Tx CTS Frames 0

Dropped After Retry 0

Dropped No Buffer 0

Missed ACKs 1

Long Preamble 22

Short Preamble 0

Tx EAPOL Frames 13

Tx 6 Mbps 15

Tx 48 Mbps 5

Tx 54 Mbps 2

Tx WMM [VO] 15

UAPSD OverflowDrop 0

TX LDPC Frames 0

Tx Data Priority [BE] 6283

Tx Data Frames 12 Mbps (Mon) 0

Tx Data Frames 24 Mbps (Mon) 0

Tx Data Frames 36 Mbps (Mon) 0

Tx Data Frames 54 Mbps (Mon) 0

Tx Data Frames 72 Mbps (Mon) 0

Tx Data Frames 108 Mbps (Mon) 0

Tx Data Frames 300 Mbps (Mon) 6283

Tx Data Frames 450 Mbps (Mon) 0

Tx Data Frames 1300 Mbps (Mon) 0

Tx Data Frames 1300 Mbps+ (Mon) 0

Tx Data Bytes 12 Mbps (Mon) 0

Tx Data Bytes 24 Mbps (Mon) 0

Tx Data Bytes 36 Mbps (Mon) 0

Tx Data Bytes 54 Mbps (Mon) 0

Tx Data Bytes 72 Mbps (Mon) 0

Tx Data Bytes 108 Mbps (Mon) 0

Tx Data Bytes 300 Mbps (Mon) 9510308

Tx Data Bytes 450 Mbps (Mon) 0

Tx Data Bytes 1300 Mbps (Mon) 0

Tx Data Bytes 1300 Mbps+ (Mon) 0

Tx 6 Mbps 5

Tx HT 130 Mbps 6283

Tx WMM [BE] 6283

Tx UAPSD OverflowDrop 0

Tx AMSDU pkt count 0

Tx EAPOL Frames Rcvd 0

Tx EAPOL Frames Dropped 0

Tx Data Frames MCS 7 : 6283

Tx Data Frames MCS : 6283

Tx Data Frames NSS2 : 6283

Tx Data Frames Long-GI(FULL) : 6283

Tx Data Frames BW 20 : 6283

---------------- Receive specific Statistics

Last SNR 31

Last SNR CTL0 28

Last SNR CTL1 25

Last SNR CTL2 22

Last ACK SNR 32

Last ACK SNR CTL0 30

Last ACK SNR CTL1 28

Last ACK SNR CTL2 21

Last ACK SNR EXT0 5

Last ACK SNR EXT1 4

Frames Received 2932

Rx Data Frames 2930

Null Data Frames 2879

Rx Mgmt Frames 1

PS Poll Frames 0

Rx 6 Mbps 14

Rx 12 Mbps 6

Rx 18 Mbps 5

Rx 24 Mbps 2

Rx 36 Mbps 13

Rx 48 Mbps 1162

Rx 54 Mbps 1730

Rx WMM [BE] 39

The output of this command includes the following information:

Parameter

Description

Frames Rcvd For TX

Number of frames received for transmission.

Tx Frames Dropped

Number of transmission frames that were dropped.

Frames Transmitted

Number of frames successfully transmitted.

Success With Retry

Number of frames that were transmitted after being retried.

Tx Mgmt Frames

Number of management frames transmitted.

Tx Probe Responses

Number of transmitted probe responses.

Tx Data Frames

Number of transmitted data frames.

Tx CTS Frames

Number of clear-to-sent (CTSClear to Send. The CTS refers to the data transmission and protection mechanism used by the 802.11 wireless networking protocol to prevent frame collision occurrences. See RTS. ) frames transmitted.

Dropped After Retry

Number of frames dropped after an attempted retry.

Dropped No Buffer

Number of frames dropped because the AP’s buffer was full.

Missed ACKs

Number of missed acknowledgements (ACKs)

Long Preamble

Number of frames sent with a long preamble.

Short Preamble

Number of frames sent with a short preamble.

Tx EAPOL Frames

Number of Extensible Authentication Protocol over LANLocal Area Network. A LAN is a network of connected devices within a distinct geographic area such as an office or a commercial establishment and share a common communications line or wireless link to a server. (EAPOL) frames transmitted.

Tx <n> Mbps

Number of frames transmitted at <n> MbpsMegabits per second, where <n> is a value between 6 and 300.

Tx WMM

Number of Wifi Multimedia (WMMWi-Fi Multimedia. WMM is also known as WME. It refers to a Wi-Fi Alliance interoperability certification, based on the IEEE 802.11e standard. It provides basic QoS features to IEEE 802.11 networks. WMM prioritizes traffic according to four ACs: voice (AC_VO), video (AC_VI), best effort (AC_BE), and background (AC_BK).) packets transmitted for the following access categories. If the AP has not transmitted packets in a category type, this data row will not appear in the output of the command.

Tx WMM [BE]: Best Effort

Tx WMM [BK]: Background

Tx WMM [VO]: VoIPVoice over IP. VoIP allows transmission of voice and multimedia content over an IP network.

Tx WMM [VI]: Video

UAPSD OverflowDrop

Number of packets dropped due to Unscheduled Automatic Power Save Delivery (U‑APSD) overflow.

Tx Data Frames/Bytes 24 Mbps
(Mon)

Total number of data frames and corresponding bytes transmitted at rate (12-24)

Tx Data Frames/Bytes 36 Mbps (Mon)

Total number of data frames and corresponding bytes transmitted at rate (24-36)

Tx Data Frames/Bytes 54 Mbps (Mon)

Total number of data frames and corresponding bytes transmitted at rate (36-54)

Tx Data Frames/Bytes 72 Mbps (Mon)

Total number of data frames and corresponding bytes transmitted at rate (54-72)

Tx Data Frames/Bytes 108 Mbps (Mon)

Total number of data frames and corresponding bytes transmitted at rate (72-108)

Tx Data Frames MCS 0

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 0

Tx Data Frames MCS 1

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 1

Tx Data Frames MCS 2

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 2

Tx Data Frames MCS 3

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 3

Tx Data Frames MCS 4

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 4

Tx Data Frames MCS 5

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 5

Tx Data Frames MCS 6

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 6

Tx Data Frames MCS 7

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 7

Tx Data Frames MCS 8

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 8

Tx Data Frames MCS 9

Total number of data frames transmitted at rate of MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. 9

Tx Data Frames Legacy

Total number of data frames transmitted at legacy rate

Tx Data Frames MCS

Total number of data frames transmitted at MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. rate

Tx Data Frames NSS1

Total number of data frames transmitted 1 spacial stream

Tx Data Frames NSS2

Total number of data frames transmitted with 2 spacial stream

Tx Data Frames NSS3

Total number of data frames transmitted with 3 spacial stream

Tx Data Frames Short-GI(HALF)

Total number of data frames transmitted with short GI

Tx Data Frames Long-GI(FULL

Total number of data frames transmitted with long GI

Tx Data Frames BW20

Total number of data frames transmitted at 20 Mhz

Tx Data Frames BW40

Total number of data frames transmitted at 40 Mhz

Tx Data Frames BW80

Total number of data frames transmitted at 80 Mhz

Tx Data Frames BW160

Total number of data frames transmitted at 160 Mhz

Last SNR

The last recorded signal-to-noise ratio.

Last SNR CTL0

The signal-to-noise ratio for the last received data packet on the primary (control) channel 0. This parameter is only displayed for APs operating in 40 Mhz mode.

Last SNR CTL1

The signal-to-noise ratio for the last received data packet on the secondary (control) channel 1. This parameter is only displayed for APs operating in 40 Mhz mode.

Last SNR CTL2

The signal-to-noise ratio for the last received data packet on the secondary (control) channel 2. This parameter is only displayed for APs operating in 40 Mhz mode.

Last ACK SNR

Signal-to-noise ratio for the last received ACK packet.

Last ACK SNR CTL0

Signal-to-noise ratio for the last received ACK packet on the primary (control) channel 0. This parameter is only displayed for APs operating in 40 Mhz mode.

Last ACK SNR CTL1

Signal-to-noise ratio for the last received ACK packet on the primary (control) channel 1. This parameter is only displayed for APs operating in 40 Mhz mode.

Last ACK SNR CTL2

Signal-to-noise ratio for the last received ACK packet on the primary (control) channel 2. This parameter is only displayed for APs operating in 40 Mhz mode.

Last ACK SNR EXT0

Signal-to-noise ratio for the last received ACK packet on the secondary (extension) channel 0. This parameter is only displayed for APs operating in 40 Mhz mode.

Last ACK SNR EXT1

Signal-to-noise ratio for the last received ACK packet on the secondary (extension) channel 1. This parameter is only displayed for APs operating in 40 Mhz mode.

Frames Received

Number of frames received.

Rx Data Frames

Number of data frames received.

Null Data Frames

Number of null data frames received.

Rx Mgmt Frames

Number of management frames received.

PS Poll Frames

Number of power save poll frames received.

Rx <n> Mbps

Number of frames received at <n> MbpsMegabits per second, where <n> is a value between 6 and 300.

Tx WMM

Number of Wifi Multimedia (WMMWi-Fi Multimedia. WMM is also known as WME. It refers to a Wi-Fi Alliance interoperability certification, based on the IEEE 802.11e standard. It provides basic QoS features to IEEE 802.11 networks. WMM prioritizes traffic according to four ACs: voice (AC_VO), video (AC_VI), best effort (AC_BE), and background (AC_BK).) packets transmitted for the following access categories. If the AP has not transmitted packets in a category type, this data row will not appear in the output of the command.

Tx WMM [BE]: Best Effort

Tx WMM [BK]: Background

Tx WMM [VO]: VoIPVoice over IP. VoIP allows transmission of voice and multimedia content over an IP network.

Tx WMM [VI]: Video

Command History

Command

Description

ArubaOS 8.3.0.0

The output of this command now includes MCSModulation and Coding Scheme. MCS is used as a parameter to determine the data rate of a wireless connection for high throughput. bucket mapping information channel width, number of spatial streams, and guard interval information of 802.11ac802.11ac is a wireless networking standard in the 802.11 family that provides high-throughput WLANs on the 5 GHz band. APs.

ArubaOS 8.0.0.0

Command introduced.

Command Information

Platforms

Licensing

Command Mode

All platforms

Base operating system.

Enable or Config mode on Mobility Master.

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