• Stars
    star
    540
  • Rank 82,257 (Top 2 %)
  • Language
    Shell
  • License
    GNU General Publi...
  • Created over 9 years ago
  • Updated about 2 months ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

A set of scripts for maintaining and testing OpenWrt

OpenWrtScripts

This is a set of scripts (sometimes also called "Openscripts") that report, configure and measure (and improve) latency in home routers (and everywhere else!) These scripts work equally well for both LEDE and OpenWrt and include:

  • getstats.sh - a script to collect troubleshooting information that helps to diagnose problems in the OpenWrt distribution.

  • opkgscript.sh - a script to save the list of currently-installed packages (say, before a sysupgrade), and then restore the full set of packages after the upgrade.

  • config-openwrt.sh - a script to configure the OpenWrt router consistently after flashing factory firmware.

  • betterspeedtest.sh & netperfrunner.sh & networkhammer.sh - scripts that measure the performance of your router or offer load to the network for testing.

  • idlelatency.sh - a script to measure the latency of an "idle line" without any additional traffic generation from the script.

  • tunnelbroker.sh - a script to set up a IPv6 6-in-4 tunnel to TunnelBroker.net.

These scripts can be saved in the /usr/lib/OpenWrtScripts directory. The easiest way to do this is to use ssh into the router and enter these commands:

opkg update
opkg install netperf git git-http
cd /usr/lib
git clone https://github.com/richb-hanover/OpenWrtScripts.git

getstats.sh

The getstats.sh script helps diagnose problems with OpenWrt. If you report a problem, it is always helpful to include the output of this script.

getstats.sh executes a built-in set of commands and writes the collected output to /tmp/openwrtstats.txt. The script also executes commands passed as arguments on the command line. It also displays a list of user-installed opkg packages - that is those not installed by default. In the example below, the output would contain results from the standard set of commands plus the two additional arguments:

Usage: sh getstats.sh "ls /usr/lib" "ls -al /etc/config"

To install and run this script: The script is self-contained, and can be placed in any directory. Read the top of the getstats.sh file for a simple procedure for using the script.

Sample output file: See a sample output file - openwrtstats.txt

opkgscript.sh

NOTE: This script is deprecated. It still works, but when upgrading to a new OpenWrt release, a far easier option is to use the Attended Sysupgrade in recent versions of OpenWrt.

The opkgscript.sh script helps to restore the current set of packages after a sysupgrade or even a clean install of either LEDE or OpenWrt. By default, the write command saves the list of installed packages in /etc/config/opkg.installed (where it will be preserved across sysupgrades), and the install command reads the file, to restore that set of packages. Cloned from Malte Forkel's original script.

Usage:

sh opkgscript.sh write use before sysupgrade to save the current set of packages

sh opkgscript.sh install use after successful sysupgrade, to restore those packages

sh opkgscript.sh help display full help information for the script

config-openwrt.sh

The config-openwrt.sh script updates the factory settings of OpenWrt to a known-good configuration. If you frequently update your firmware, you can use this script to reconfigure the router to a consistent state. You should make a copy of this script, customize it to your needs, then use the "To run this script" procedure (below).

This script is designed to configure the settings after an initial "factory" firmware flash. There are sections below to configure many aspects of your router. All the sections are commented out. There are sections for:

  • Set up the WAN interface to connect to your provider
  • Update the software packages
  • Update the root password
  • Set the time zone
  • Enable SNMP for traffic monitoring and measurements
  • Enable mDNS/ZeroConf on the WAN interface
  • Set the SQM (Smart Queue Management) parameters

[ Note: the remaining items have not been converted to work on OpenWrt yet ]

  • Enable NetFlow export for traffic analysis
  • Change default IP addresses and subnets for interfaces
  • Change default DNS names
  • Set the radio channels
  • Set wireless SSID names
  • Set the wireless security credentials]_

To run this script

Flash the router with factory firmware. Then telnet/ssh in and execute these statements. You should do this over a wired connection because some of these changes may reset the wireless network.

ssh [email protected]
cd /tmp
cat > config.sh 
[paste in the contents of this file, then hit ^D]
sh config.sh
Presto! (You should reboot the router when this completes.)

Note: If you use a secondary OpenWrt router, you can create another copy of this script, and use it to set different configuration parameters (perhaps different subnets, radio channels, SSIDs, enable mDNS, etc).

betterspeedtest.sh

The betterspeedtest.sh script emulates the web-based test performed by speedtest.net, but does it one better. While script performs a download and an upload to a server on the Internet, it simultaneously measures latency of pings to see whether the file transfers affect the responsiveness of your network.

Here's why that's important: If the data transfers do increase the latency/lag much, then other network activity, such as voice or video chat, gaming, and general network activity will also work poorly. Gamers will see this as lagging out when someone else uses the network. Skype and FaceTime will see dropouts or freezes. Latency is bad, and good routers will not allow it to happen.

The betterspeedtest.sh script measures latency during file transfers. To invoke it:

sh betterspeedtest.sh [ -4 | -6 ] [ -H netperf-server ] [ -t duration ] [ -p host-to-ping ] [ -i ] [ -n simultaneous-streams ]

Options, if present, are:

  • -H | --host: DNS or Address of a netperf server (default - netperf.bufferbloat.net)
    Alternate servers are netperf-east (east coast US), netperf-west (California), and netperf-eu (Denmark)
  • -4 | -6: Enable ipv4 or ipv6 testing (default - ipv4)
  • -t | --time: Duration for how long each direction's test should run - (default - 60 seconds)
  • -p | --ping: Host to ping to measure latency (default - gstatic.com)
  • -i | --idle: Don't send traffic, only measure idle latency
  • -n | --number: Number of simultaneous sessions (default - 5 sessions)

The output shows separate (one-way) download and upload speed, along with a summary of latencies, including min, max, average, median, and 10th and 90th percentiles so you can get a sense of the distribution. The tool also displays the percent packet loss. The example below shows two measurements, bad and good.

The Idle test uses the same process to measure latency of the line, but without any additional traffic from this script. It runs for the specified --time.

Note: If the script displays the latency values as all-zeros on OpenWrt, then it's likely that the device has received (and is trying to use) an IPv6 address for the ping host. This will fail if you don't have IPv6 service from your ISP. To solve this, add -p 1.1.1.1 or -p 8.8.8.8 to the command to force an IPv4 host.

Sample Results

On the left is a test run without SQM. Note that the latency gets huge (greater than 5 seconds), meaning that network performance would be terrible for anyone else using the network.

On the right is a test using SQM: the latency goes up a little (less than 23 msec under load), and network performance remains good.

Example with NO SQM - BAD                                     Example using SQM - GOOD

root@openwrt:/usr/lib/OpenWrtScripts# sh betterspeedtest.sh   root@openwrt:/usr/lib/OpenWrtScripts# sh betterspeedtest.sh
[date/time] Testing against netperf.bufferbloat.net (ipv4)    [date/time] Testing against netperf.bufferbloat.net (ipv4)
   with 5 simultaneous sessions while pinging gstatic.com        with 5 simultaneous sessions while pinging gstatic.com
   (60 seconds in each direction)                                (60 seconds in each direction)

 Download:  6.65 Mbps                                         Download:  6.62 Mbps
  Latency: (in msec, 58 pings, 0.00% packet loss)              Latency: (in msec, 61 pings, 0.00% packet loss)
      Min: 43.399                                                  Min: 43.092
    10pct: 156.092                                               10pct: 43.916
   Median: 230.921                                              Median: 46.400
      Avg: 248.849                                                 Avg: 46.575
    90pct: 354.738                                               90pct: 48.514
      Max: 385.507                                                 Max: 56.150

   Upload:  0.72 Mbps                                           Upload:  0.70 Mbps
  Latency: (in msec, 59 pings, 0.00% packet loss)              Latency: (in msec, 53 pings, 0.00% packet loss)
      Min: 43.699                                                  Min: 43.394
    10pct: 352.521                                               10pct: 44.202
   Median: 4208.574                                             Median: 50.061
      Avg: 3587.534                                                Avg: 50.486
    90pct: 5163.901                                              90pct: 56.061
      Max: 5334.262                                                Max: 69.333

netperfrunner.sh

The netperfrunner.sh script runs several netperf commands simultaneously. This mimics the stress test of netperf-wrapper [Github] but without the nice GUI result.

When you start this script, it concurrently uploads and downloads several streams (files) to a server on the Internet. This places a heavy load on the bottleneck link of your network (probably your connection to the Internet), and lets you measure both the total bandwidth and the latency of the link during the transfers.

To invoke the script:

sh netperfrunner.sh [ -4 | -6 ] [ -H netperf-server ] [ -t duration ] [ -p host-to-ping ] [-n simultaneous-streams ]

Options, if present, are:

  • -H | --host: DNS or Address of a netperf server (default - netperf.bufferbloat.net)
    Alternate servers are netperf-east (East Coast US), netperf-west (California), netperf-eu (Denmark), or flent-fremont (also California)

  • -4 | -6: Enable ipv4 or ipv6 testing (default - ipv4)

  • -t | --time: Duration for how long each direction's test should run - (default - 60 seconds)

  • -p | --ping: Host to ping to measure latency (default - gstatic.com)

  • -n | --number: Number of simultaneous sessions (default - 4 sessions)

The output of the script looks like this:

root@openwrt:/usr/lib/OpenWrtScripts# sh netperfrunner.sh
[date/time] Testing netperf.bufferbloat.net (ipv4) with 4 streams down and up 
    while pinging gstatic.com. Takes about 60 seconds.
Download:  5.02 Mbps
  Upload:  0.41 Mbps
 Latency: (in msec, 61 pings, 15.00% packet loss)
     Min: 44.494
   10pct: 44.494
  Median: 66.438
     Avg: 68.559
   90pct: 79.049
     Max: 140.421

Note: The download and upload speeds reported may be considerably lower than your line's rated speed. This is not a bug, nor is it a problem with your internet connection. That's because the acknowledge messages sent back to the sender consume a significant fraction of the link's capacity (as much as 25%).

networkhammer.sh

The networkhammer.sh script continually invokes the netperfrunner script to provide a heavy load. It runs forever - Ctl-C will interrupt it.

idlelatency.sh

This script is no longer maintained. Use the --idle option of the betterspeedtest.sh script.

tunnelbroker.sh

The tunnelbroker.sh script configures OpenWrt to create an IPv6 tunnel via Hurricane Electric. It's an easy way to become familiar with IPv6 if your ISP doesn't offer native IPv6 capabilities. There are several steps:

  1. Go to the Hurricane Electric TunnelBroker.net site to set up your free account. There are detailed instructions for setting up an account and an IPv6 tunnel in the script itself, or at the IPv6 Tunnel page of bufferbloat.net
  2. From the tunnelbroker main page, click "Create Regular Tunnel"
  • Enter your IP address in "IPv4 Endpoint" (paste in the address you're "viewing from")
  • Select a nearby Tunnel Server
  • Click "Create Tunnel"
  1. On the resulting Tunnel Details page, click Assign /48 to get a /48 prefix

  2. From the Tunnel Details page, copy and paste the matching values into the tunnel.sh file. The User_Name is the name you used to create the account. Find the Update_Key on the Advanced Tab of the Tunnel Details page.

  3. ssh into the router and execute this script with these steps.

     ssh [email protected]     # use the address of your router
     cd /tmp
     cat > tunnel.sh 
     [paste in the contents of this file, then hit ^D]
     [edit the script to match your tunnelbroker values]
     sh tunnel.sh
     [Restart your router. This seems to make a difference.]
    

Presto! Your tunnel is up! Your computer should get a global IPv6 address, and should be able to communicate directly with IPv6 devices on the Internet. To test it, try: ping6 ivp6.google.com