WilliamLam.com

  • About
    • About
    • Privacy
  • VMware Cloud Foundation
  • VKS
  • Homelab
    • Resources
    • Nested Virtualization
  • VMware Nostalgia
  • Apple

Quick Tip - Disable network traffic monitoring (promiscuous) UI prompt in VMware Fusion

07.23.2024 by William Lam // Leave a Comment

While working on some demos planned for my VMware Explore session, Tech Deep Dive: Automating VMware ESXi Installation At Scale [CODEB1574LV], I kept getting this network monitoring prompt when powering up my Nested ESXi VM running in VMware Fusion.


Since Nested ESXi requires the use of promiscuous mode (for inner-VM networking), you will be prompted to approve of the request or networking will be disabled. For demo purposes, you probably do not want this prompting and I was wondering if this could be disabled. After a quick ping in our internal VMware Hosted Google Space, I learned that we can disable the UI prompt by adding a VMX option to the VM.

[Read more...]

Categories // Fusion, Nested Virtualization Tags // fusion, Nested ESXi, promiscuous mode

Native MAC Learning in vSphere 6.7 removes the need for Promiscuous mode for Nested ESXi

04.25.2018 by William Lam // 41 Comments

Over the years, several solutions have been developed here and here to help reduce the impact of promiscuous mode, which is a requirement for running Nested ESXi as a workload. Although these solutions worked extremely well, it however did require users to install additional software to enable this functionality. The most recent solution was a new Learnswitch VMkernel module (released as a VMware Fling) that enables MAC learning capabilities on ESXi.

Today, I am pleased to announce that with the release of vSphere 6.7, the MAC Learning functionality is now available as a native feature of the VMware Distributed Virtual Switch (VDS) and as some of you may have guessed from the title, promiscuous mode is also no longer a requirement for running Nested ESXi! I wanted to take a moment and thank Subin, Jobin, Sriram, Rajeev & Samuel from our Network and Security Business Unit (NSBU) at VMware who worked tirelessly to get this integrated and productized into ESXi. Not only will this benefit Nested ESXi workloads but also other solutions and use cases that have historically required the use of promiscuous mode. For customers who are still running ESXi 6.0 or 6.5, you should continue to use the Learnswitch Fling until you fully upgrade to vSphere 6.7.

To use the new MAC Learning functionality, you will of course need to upgrade to vSphere 6.7 (both vCenter and ESXi) but also upgrade to the latest VDS version which is 6.6. MAC Learning can be enabled on a per Distributed Virtual Portgroup bases and today, it is only available when using the vSphere API. For those that have used the VDS API to manage their VDS, you will simply use the existing ReconfigureDVPortgroup_Task() method and in 6.7, there now a new macManagementPolicy property which allows you to enable and define your MAC Learning settings. This new MAC Management Policy will also be the new preferred method for managing security policies going forward for a DV Portgroup and the previous security policy settings should no longer be used.

Disclaimer: Nested ESXi is still not officially supported by VMware. Please use at your own risk.  [Read more...]

Categories // ESXi, Home Lab, Nested Virtualization, Not Supported, vSphere 6.7 Tags // ESXi 6.7, mac learning, Nested ESXi, nested virtualization, promiscuous mode, vSphere 6.7

New VMware Fling to improve Network/CPU performance when using Promiscuous Mode for Nested ESXi

08.28.2014 by William Lam // 44 Comments

I wrote an article awhile back Why is Promiscuous Mode & Forged Transmits required for Nested ESXi? and the primary motivation behind the article was in regards to an observation a customer made while using Nested ESXi. The customer was performing some networking benchmarks on their physical ESXi hosts which happened to be hosting a couple of Nested ESXi VMs as well as regular VMs. The customer concluded in his blog that running Nested ESXi VMs on their physical ESXi hosts actually reduced overall network throughput.

UPDATE (04/24/17) - Please have a look at the new ESXi Learnswitch which is an enhancement to the existing ESXi dvFilter MAC Learn module.

UPDATE (11/30/16) - A new version of the ESXi MAC Learning dvFilter has just been released to support ESXi 6.5, please download v2 for that ESXi release. If you have ESXi 5.x or 6.0, you will need to use the v1 version of the Fling as it is not backwards compat. You can all the details on the Fling page here.

This initially did not click until I started to think about this a bit more and the implications when enabling Promiscuous Mode which I think is something that not many of us are not aware of. At a very high level, Promiscuous Mode allows for proper networking connectivity for our Nested VMs running on top of a Nested ESXi VMs (For the full details, please refer to the blog article above). So why is this a problem and how does this lead to reduced network performance as well as increased CPU load?

The diagram below will hopefully help explain why. Here, I have a single physical ESXi host that is connected to either a VSS (Virtual Standard Switch) or VDS (vSphere Distributed Switch) and I have a portgroup which has Promiscuous Mode enabled and it contains both Nested ESXi VMs as well as regular VMs. Lets say we have 1000 Network Packets destined for our regular VM (highlighted in blue), one would expect that the red boxes (representing the packets) will be forwarded to our regular VM right?

nested-esxi-prom-new-01
What actually happens is shown in the next diagram below where every Nested ESXi VM as well as other regular VMs within the portgroup that has Promiscuous Mode enabled will receive a copy of those 1000 Network Packets on each of their vNICs even though they were not originally intended for them. This process of performing the shadow copies of the network packets and forwarding them down to the VMs is a very expensive operation. This is why the customer was seeing reduced network performance as well as increased CPU utilization to process all these additional packets that would eventually be discarded by the Nested ESXi VMs.

nested-esxi-prom-new-02
This really solidified in my head when I logged into my own home lab system which I run anywhere from 15-20 Nested ESXi VMs at any given time in addition to several dozen regular VMs just like any home/development/test lab would. I launched esxtop and set the refresh cycle to 2seconds and switched to the networking view. At the time I was transferring a couple of ESXi ISO’s for my kicskstart server and realized that ALL my Nested ESXi VMs got a copy of those packets.

nested-esxi-mac-learning-dvfilter-0
As you can see from the screenshot above, every single one of my Nested ESXi VMs was receiving ALL traffic from the virtual switch, this definitely adds up to a lot of resources being wasted on my physical ESXi host which could be used for running other workloads.

I decided at this point to reach out to engineering to see if there was anything we could do to help reduce this impact. I initially thought about using NIOC but then realized it was primarily designed for managing outbound traffic where as the Promiscuous Mode traffic is all inbound and it would not actually get rid of the traffic. After speaking to a couple of Engineers, it turns out this issue had been seen in our R&D Cloud (Nimbus) which provides IaaS capabilities to the R&D Organization for quickly spinning up both Virtual/Physical instances for development and testing.

Christian Dickmann was my go to guy for Nimbus and it turns out this particular issue has been seen before. Not only has he seen this behavior, he also had a nice solution to fix the problem in the form of an ESXi dvFilter that implemented MAC Learning! As many of you know our VSS/VDS does not implement MAC Learning as we already know which MAC Addresses are assigned to a particular VM.

I got in touch with Christian and was able to validate his solution in my home lab using the latest ESXi 5.5 release. At this point, I knew I had to get this out to the larger VMware Community and started to work with Christian and our VMware Flings team to see how we can get this released as a Fling.

Today, I am excited to announce the ESXi Mac Learning dvFilter Fling which is distributed as an installable VIB for your physical ESXi host and it provides support for ESXi 5.x & ESXi 6.x

esxi-mac-learn-dvfilter-fling-logo
Note: You will need to enable Promiscuous Mode either on the VSS/VDS or specific portgroup/distributed portgroup for this solution to work.

You can download the MAC Learning dvFilter VIB here or you can install directly from the URL shown below:

To install the VIB, run the following ESXCLI command if you have VIB uploaded to your ESXi datastore:

esxcli software vib install -v /vmfs/volumes/<DATASTORE>/vmware-esx-dvfilter-maclearn-0.1-ESX-5.0.vib -f

To install the VIB from the URL directly, run the following ESXCLI command:

esxcli software vib install -v http://download3.vmware.com/software/vmw-tools/esxi-mac-learning-dvfilter/vmware-esx-dvfilter-maclearn-1.0.vib -f

A system reboot is not necessary and you can confirm the dvFilter was successfully installed by running the following command:

/sbin/summarize-dvfilter

You should be able see the new MAC Learning dvFilter listed at the very top of the output.

nested-esxi-mac-learning-dvfilter-2
For the new dvFilter to work, you will need to add two Advanced Virtual Machine Settings to each of your Nested ESXi VMs and this is on a per vNIC basis, which means you will need to add N-entries if you have N-vNICs on your Nested ESXi VM.

    ethernet#.filter4.name = dvfilter-maclearn
    ethernet#.filter4.onFailure = failOpen

This can be done online without rebooting the Nested ESXi VMs if you leverage the vSphere API. Another way to add this is to shutdown your Nested ESXi VM and use either the “legacy” vSphere C# Client or vSphere Web Client or for those that know how to append and reload the .VMX file as that’s where the configuration file is persisted
on disk.

nested-esxi-mac-learning-dvfilter-3
I normally provision my Nested ESXi VMs with 4 vNICs, so I have four corresponding entries. To confirm the settings are loaded, we can re-run the summarize-dvfilter command and we should now see our Virtual Machine listed in the output along with each vNIC instance.

nested-esxi-mac-learning-dvfilter-4
Once I started to apply this changed across all my Nested ESXi VMs using a script I had written for setting Advanced VM Settings, I immediately saw the decrease of network traffic on ALL my Nested ESXi VMs. For those of you who wish to automate this configuration change, you can take a look at this blog article which includes both a PowerCLI & vSphere SDK for Perl script that can help.

I highly recommend anyone that uses Nested ESXi to ensure you have this VIB installed on all your ESXi hosts! As a best practice you should also ensure that you isolate your other workloads from your Nested ESXi VMs and this will allow you to limit which portgroups must be enabled with Promiscuous Mode.

Categories // ESXi, Home Lab, Nested Virtualization, vSphere, vSphere 6.0 Tags // dvFilter, ESXi, Fling, mac learning, nested, nested virtualization, promiscuous mode, vib

  • 1
  • 2
  • Next Page »

Search

Thank Author

Author

William is Distinguished Platform Engineering Architect in the VMware Cloud Foundation (VCF) Division at Broadcom. His primary focus is helping customers and partners build, run and operate a modern Private Cloud using the VMware Cloud Foundation (VCF) platform.

Connect

  • Bluesky
  • Email
  • GitHub
  • LinkedIn
  • Mastodon
  • Reddit
  • RSS
  • Twitter
  • Vimeo

Recent

  • VMware Flings is now available in Free Downloads of Broadcom Support Portal (BSP) 05/19/2025
  • VMUG Connect 2025 - Minimal VMware Cloud Foundation (VCF) 5.x in a Box  05/15/2025
  • Programmatically accessing the Broadcom Compatibility Guide (BCG) 05/06/2025
  • Quick Tip - Validating Broadcom Download Token  05/01/2025
  • Supported chipsets for the USB Network Native Driver for ESXi Fling 04/23/2025

Advertisment

Privacy & Cookies: This site uses cookies. By continuing to use this website, you agree to their use.
To find out more, including how to control cookies, see here: Cookie Policy

Copyright WilliamLam.com © 2025

 

Loading Comments...