4.1 KiB
Supported Targets | ESP32 | ESP32-C2 | ESP32-C3 | ESP32-C6 | ESP32-S2 | ESP32-S3 |
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Iperf Example
Note about iperf version
The iperf example doesn't support all features in standard iperf. It's compatible with iperf version 2.x.
- Refer to the components registry iperf-cmd page for more information: https://components.espressif.com/components/espressif/iperf-cmd
Note about 80MHz flash frequency (ESP32)
The iperf can get better throughput if the SPI flash frequency is set to 80MHz, but the system may crash in 80MHz mode for ESP-WROVER-KIT. Removing R140~R145 from the board can fix this issue. Currently the default SPI frequency is set to 40MHz, if you want to change the SPI flash frequency to 80MHz, please make sure R140~R145 are removed from ESP-WROVER-KIT or use ESP32 DevKitC.
Introduction
This example implements the protocol used by the common performance measurement tool iPerf. Performance can be measured between two ESP targets running this example, or between a single ESP target and a computer running the iPerf tool
Demo steps to test station TCP Tx performance:
-
Configure in
menuconfig
which serial output you are using. Executeidf.py menuconfig
and go toComponent config/ESP System Settings/Channel for console output
, then select the appropriate interface. By default the UART0 interface is used, this means that for example in the ESP32-S3-DevKitC-1 or ESP32-C6-DevKitC-1 you should connect to the micro-usb connector labeled as UART and not to the one labeled as USB. To use the one labeled as USB you should change the aforementioned setting toUSB Serial/JTAG Controller
. -
Build and flash the iperf example with
sdkconfig.defaults
, which contains performance test specific configurations- Use
help
for detailed command usage information.
- Use
-
Run the demo as station mode and join the target AP
sta_connect <ssid> <password>
- NOTE: the dut is started in station mode by default. If you want to use the dut as softap, please set wifi mode first:
wifi_mode ap
ap_set <dut_ap_ssid> <dut_ap_password>
-
Run iperf as server on AP side
iperf -s -i 3
-
Run iperf as client on ESP side
iperf -c 192.168.10.42 -i 3 -t 60
The console output, which is printed by station TCP RX throughput test, looks like:
iperf> sta_connect testap-11 ********
I (36836) WIFI: Connecting to testap-11...
I (36839) WIFI: DONE.WIFI_CONNECT_START,OK.
iperf> I (39248) WIFI: WIFI_EVENT_STA_DISCONNECTED! reason: 201
I (39249) WIFI: trying to reconnect...
I (41811) wifi:new:<11,2>, old:<1,0>, ap:<255,255>, sta:<11,2>, prof:1, snd_ch_cfg:0x0
I (41813) wifi:state: init -> auth (0xb0)
I (41816) wifi:state: auth -> assoc (0x0)
I (41840) wifi:state: assoc -> run (0x10)
I (41847) wifi:<ba-add>idx:0 (ifx:0, 30:5a:3a:74:90:f0), tid:0, ssn:0, winSize:64
I (41914) wifi:connected with testap-11, aid = 1, channel 11, 40D, bssid = 30:5a:3a:74:90:f0
I (41915) wifi:security: WPA2-PSK, phy: bgn, rssi: -34
I (41926) wifi:pm start, type: 0
I (41927) wifi:dp: 1, bi: 102400, li: 3, scale listen interval from 307200 us to 307200 us
I (41929) WIFI: WIFI_EVENT_STA_CONNECTED!
I (41983) wifi:AP's beacon interval = 102400 us, DTIM period = 3
I (42929) esp_netif_handlers: sta ip: 192.168.1.79, mask: 255.255.255.0, gw: 192.168.1.1
I (42930) WIFI: IP_EVENT_STA_GOT_IP: Interface "sta" address: 192.168.1.79
I (42942) WIFI: - IPv4 address: 192.168.1.79,
iperf>
iperf> iperf -s -i 2
I (84810) IPERF: mode=tcp-server sip=0.0.0.0:5001, dip=0.0.0.0:5001, interval=2, time=30
I (84812) iperf: Socket created
iperf> I (87967) iperf: accept: 192.168.1.2,43726
Interval Bandwidth
0.0- 2.0 sec 24.36 Mbits/sec
2.0- 4.0 sec 23.38 Mbits/sec
4.0- 6.0 sec 24.02 Mbits/sec
6.0- 8.0 sec 25.27 Mbits/sec
8.0-10.0 sec 23.84 Mbits/sec
Steps to test station/soft-AP TCP/UDP RX/TX throughput are similar as test steps in station TCP TX.
See the README.md file in the upper level 'examples' directory for more information about examples.