esp-idf/examples/ethernet/iperf
2023-09-26 13:29:37 +00:00
..
main build system: re-add -Wno-format as private flag for some example components 2022-08-03 16:42:47 +04:00
CMakeLists.txt tools: Increase the minimal supported CMake version to 3.16 2022-06-01 06:35:02 +00:00
iperf_test.py CI: fix ethernet throughput test 2022-12-20 11:26:43 +08:00
partitions_example.csv Whitespace: Automated whitespace fixes (large commit) 2020-11-11 07:36:35 +00:00
README.md doc: redirect console page 2022-11-02 16:11:24 +08:00
sdkconfig.defaults docs(esp_eth): added Ethernet to Improving Network Speed section 2023-09-26 13:29:37 +00:00
sdkconfig.defaults.esp32 soc: moved kconfig options out of the target component. 2022-04-21 12:09:43 +08:00
sdkconfig.defaults.esp32s2 soc: moved kconfig options out of the target component. 2022-04-21 12:09:43 +08:00

Supported Targets ESP32 ESP32-C3 ESP32-S2 ESP32-S3

Ethernet iperf Example

(See the README.md file in the upper level 'examples' directory for more information about examples.)

Overview

This example demonstrates basic usage of iperf protocol to measure the throughout/bandwidth of Ethernet.

The cli environment in the example is based on the console component.

How to use example

Hardware Required

To run this example, it's recommended that you have an official ESP32 Ethernet development board - ESP32-Ethernet-Kit. This example should also work for 3rd party ESP32 board as long as it's integrated with a supported Ethernet PHY chip. Up until now, ESP-IDF supports up to four Ethernet PHY: LAN8720, IP101, DP83848 and RTL8201, additional PHY drivers should be implemented by users themselves.

Besides that, esp_eth component can drive third-party Ethernet module which integrates MAC and PHY and provides common communication interface (e.g. SPI, USB, etc). This example will take the DM9051 as an example, illustrating how to install the Ethernet driver in the same manner.

Pin Assignment

See common pin assignments for Ethernet examples from upper level.

Software Tools Preparation

  1. Install iperf tool on PC
    • Debian/Ubuntu: sudo apt-get install iperf
    • macOS: brew install iperf(if using Homebrew) or sudo port install iperf(if using MacPorts)
    • Windows(MSYS2): Downloads binaries from here

Configure the project

idf.py menuconfig

In addition to the common configurations for Ethernet examples from upper level, you might also need to update the default value of following configurations:

  1. In the Example Configuration menu:
    • Enable storing history commands in flash under Store command history in flash.

Build, Flash, and Run

Build the project and flash it to the board, then run monitor tool to view serial output:

idf.py -p PORT build flash monitor

(Replace PORT with the name of the serial port to use.)

(To exit the serial monitor, type Ctrl-].)

See the Getting Started Guide for full steps to configure and use ESP-IDF to build projects.

Example Output

  • PC: run command: iperf -u -s -i 3 to start iperf server in UDP mode, and report interval is 3 seconds.
  • ESP32: run command: iperf -u -c PC_IP -i 3 -t 30 to start iperf client in UDP mode, and the test will last 30 seconds.

PC output

------------------------------------------------------------
Server listening on UDP port 5001
Receiving 1470 byte datagrams
UDP buffer size:  208 KByte (default)
------------------------------------------------------------
[  3] local 192.168.2.160 port 5001 connected with 192.168.2.156 port 49154
[ ID] Interval       Transfer     Bandwidth        Jitter   Lost/Total Datagrams
[  3]  0.0- 3.0 sec  26.1 MBytes  72.8 Mbits/sec   0.198 ms    1/18585 (0.0054%)
[  3]  3.0- 6.0 sec  26.3 MBytes  73.7 Mbits/sec   0.192 ms    0/18792 (0%)
[  3]  6.0- 9.0 sec  26.3 MBytes  73.5 Mbits/sec   0.189 ms    0/18741 (0%)
[  3]  9.0-12.0 sec  26.2 MBytes  73.3 Mbits/sec   0.191 ms   43/18739 (0.23%)
[  3] 12.0-15.0 sec  26.3 MBytes  73.5 Mbits/sec   0.194 ms    0/18739 (0%)
[  3] 15.0-18.0 sec  26.3 MBytes  73.5 Mbits/sec   0.191 ms    0/18741 (0%)
[  3] 18.0-21.0 sec  26.3 MBytes  73.5 Mbits/sec   0.187 ms    0/18752 (0%)
[  3] 21.0-24.0 sec  26.3 MBytes  73.4 Mbits/sec   0.192 ms    0/18737 (0%)
[  3] 24.0-27.0 sec  26.3 MBytes  73.5 Mbits/sec   0.188 ms    0/18739 (0%)

ESP32 output

mode=udp-client sip=192.168.2.156:5001, dip=192.168.2.160:5001, interval=3, time=30
    Interval           Bandwidth
   0-   3 sec       72.92 Mbits/sec
   3-   6 sec       73.76 Mbits/sec
   6-   9 sec       73.56 Mbits/sec
   9-  12 sec       73.56 Mbits/sec
  12-  15 sec       73.56 Mbits/sec
  15-  18 sec       73.56 Mbits/sec
  18-  21 sec       73.61 Mbits/sec
  21-  24 sec       73.55 Mbits/sec
  24-  27 sec       73.56 Mbits/sec
  27-  30 sec       73.56 Mbits/sec
   0-  30 sec       73.52 Mbits/sec
  • PC: run command: iperf -u -c ESP_IP -b 80M -t 30 -i 3 to start iperf client in UDP mode with estimated bandwidth 100M, and report interval is 3 seconds.
  • ESP32: run command: iperf -u -s -t 30 -i 3 to start iperf server in UDP mode, and the test will last 30 seconds.

PC output

------------------------------------------------------------
Client connecting to 192.168.2.156, UDP port 5001
Sending 1470 byte datagrams
UDP buffer size:  208 KByte (default)
------------------------------------------------------------
[  3] local 192.168.2.160 port 59581 connected with 192.168.2.156 port 5001
[ ID] Interval       Transfer     Bandwidth
[  3]  0.0- 3.0 sec  28.6 MBytes  80.0 Mbits/sec
[  3]  3.0- 6.0 sec  28.6 MBytes  80.0 Mbits/sec
[  3]  6.0- 9.0 sec  28.6 MBytes  80.0 Mbits/sec
[  3]  9.0-12.0 sec  28.6 MBytes  80.0 Mbits/sec
[  3] 12.0-15.0 sec  28.4 MBytes  79.5 Mbits/sec
[  3] 15.0-18.0 sec  28.6 MBytes  79.9 Mbits/sec
[  3] 18.0-21.0 sec  28.6 MBytes  79.9 Mbits/sec
[  3] 21.0-24.0 sec  28.6 MBytes  79.9 Mbits/sec
[  3] 24.0-27.0 sec  28.6 MBytes  80.0 Mbits/sec
[  3] 27.0-30.0 sec  28.5 MBytes  79.7 Mbits/sec
[  3]  0.0-30.0 sec   286 MBytes  79.9 Mbits/sec

ESP32 output

mode=udp-server sip=192.168.2.156:5001, dip=0.0.0.0:5001, interval=3, time=30
    Interval           Bandwidth
I (2534456) iperf: want recv=16384
   0-   3 sec       79.36 Mbits/sec
   3-   6 sec       79.56 Mbits/sec
   6-   9 sec       79.51 Mbits/sec
   9-  12 sec       79.24 Mbits/sec
  12-  15 sec       77.33 Mbits/sec
  15-  18 sec       79.01 Mbits/sec
  18-  21 sec       78.58 Mbits/sec
  21-  24 sec       78.24 Mbits/sec
  24-  27 sec       79.56 Mbits/sec
  27-  30 sec       77.20 Mbits/sec
   0-  30 sec       78.76 Mbits/sec

Suggestions of getting higher bandwidth

  1. Higher MCU working frequency will get higher bandwidth.
  2. Put frequently invoked functions into IRAM via macro IRAM_ATTR in code. Note that the lwIP IRAM optimization is already enabled by default.
  3. Priority of iperf task may also have effect.

Troubleshooting

See common troubleshooting for Ethernet examples from upper level.

(For any technical queries, please open an issue on GitHub. We will get back to you as soon as possible.)