Narrowing down where intermittent network issues exist

Frequently I work on issues where there is a problem connecting to certain network resources, but the symptoms aren’t necessarily conveyed in an empirical manner.  “We sometimes have issues connecting to Server1” or “Once in a while I can’t get to a web page, but refresh works,” etc.

The go-to tool is frequently “ping,” as that lets you know quickly if something is accessible or not (assuming no firewall restrictions related to ICMP, etc.).

What should be done if the problem is happening infrequently or if multiple servers are involved?   PING doesn’t provide a good history of when things were responding and stopped responding.  That’s where wrapping some code around the PowerShell command Test-Connection comes in handy.

The Script

Copy the content below and put into a file “Ping.ps1”.

param([parameter(Mandatory=$true,ValueFromPipeline=$false,HelpMessage=’HostName or IP Address’)][string]$HostName)

# John Fedor – Peters & Associates


[console]::BackgroundColor = “black”


write-host $HostName





$CurrentState = Test-Connection -ComputerName $HostName -Count 1 -Quiet

if ($CurrentState -ne $LastState)

{= “:  Duration was ” + ($Now-$LastTime).TotalSeconds + ” seconds” }

if ($CurrentState -eq $true)

{ write-host “Responding ” (get-date) $Delta -ForegroundColor Green }


{ write-host “Stopped ” (get-date) $Delta -ForegroundColor Red }

$LastState = $CurrentState

$LastTime = $Now


# Give the CPU a break

Sleep -Seconds 1


while (1 -eq 1)

$Now = Get-Date

if ($LastTime -eq $Null)

{ $Delta = “” }


{ $Delta

Using the script

The easiest way to test the script is to launch a PowerShell prompt and simply run:

.\ping.ps1 -HostName Server1

This will start the process.  It will continue to ping the specified resource until you escape out (CTL-C or close the window).  Whenever there is a change (starts responding or stops responding), the time/date will show up, along with how long the prior step was running.

If we look at the above sample output, we can see we initially started the ping and it was successful at 10:27:22 AM.

Then, at 10:27:28 AM, it stopped responding to pings.   The duration of the success was 6.1278674 seconds.

Then, at 10:27:30 AM, it started responding to pings again.  The duration of the failure was 2.0373406 seconds

By getting just the detailed timestamps of when the response status changes, you can have this run for hours/days without filing up the screen (depending on how stable the connection has been).

How does this help?

With this tool, you can now launch multiple windows with various PINGs being performed from a server.  Each window can hit various resources on the network (layer 3 devices, servers, etc.) to help identify where the problem may lie, and the time/date stamps may provide correlation of problems.

You can also run this from other machines to get a different perspective of the issue.  Alternatively, you can wrap it in a batch to launch periodically for testing purposes, such as:

start powershell -command C:\Scripts\ping.ps1 -HostName Server1

start powershell -command C:\Scripts\ping.ps1 -HostName Server2

start powershell -command C:\Scripts\ping.ps1 -HostName Server3

Using tools like this, we’ve narrowed issues down to a particular 1-2 devices to provide more focus on troubleshooting, see patterns in issues (and discovered scheduled reboots as a result), and other uses.

This script is a starting point.  We can modify the script to test other resources so it’s not dependent on ICMP echo & echo-reply being passed through firewalls, etc. This method may show clearer issues to service availability, not just the server.

Need assistance in hunting down network issues or other assistance? Email  We are happy to help.


By |2018-12-18T11:54:39-05:00September 1st, 2017|Infrastructure Services|Comments Off on Narrowing down where intermittent network issues exist

About the Author:

John has been with Peters & Associates for over two decades. Over the years, John has diligently worked on the delivery of solutions matched to organizational business issues. As technologies have evolved, John has adapted skill-sets to continually exceed customer expectations and outcomes. John is a DePaul University alum with a Master’s in Computer Science with minors in Math and Physics. John’s capabilities are validated by industry certifications and accolades including CISSP, CCNP, MCSE, and many others. John has primary mentoring and managerial responsibilities over a dedicated engineering staff. With client satisfaction as a guiding star, John aligns delivery, escalation, consistency, and on-going training to make sure customers receive value day-in, day-out.