Slow Image Deployment Speeds after Updating BZImage Files
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@cdutko Well we’d really like to know what changed your speed. There maybe something else (other than FOG that is causing this). So the idea is to keep everything the same except for changing the kernel to see if that has an impact. I know with the 5.15 version some vulnerability mitigation code was enabled. So its unclear of that is having a speed impact on deployment. Also partclone changing might have an impact on speed. I’m leaning towards an impact on capture speed over deployment speed, but anything is possible.
From a real world experience I would expect normal imaging, on a solid 1GbE network with contemporary hardware to run in the 5.5 to 6.3 GB/minute range. The to note is that 668MB/min is suspicious. 668MB/min == 11.13MB/sec. 100Mb networking runs at 12.5MB/sec (theoretical). It may just be a numeric anomaly but your imaging speeds might indicate there is a 100MB network link somewhere in your imaging path.
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@george1421 said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko Well we’d really like to know what changed your speed. There maybe something else (other than FOG that is causing this). So the idea is to keep everything the same except for changing the kernel to see if that has an impact. I know with the 5.15 version some vulnerability mitigation code was enabled. So its unclear of that is having a speed impact on deployment. Also partclone changing might have an impact on speed. I’m leaning towards an impact on capture speed over deployment speed, but anything is possible.
From a real world experience I would expect normal imaging, on a solid 1GbE network with contemporary hardware to run in the 5.5 to 6.3 GB/minute range. The to note is that 668MB/min is suspicious. 668MB/min == 11.13MB/sec. 100Mb networking runs at 12.5MB/sec (theoretical). It may just be a numeric anomaly but your imaging speeds might indicate there is a 100MB network link somewhere in your imaging path.
I would like to know as well. Currently I am still stuck with the slower speeds. I can send a picture of my network setup, but it is beyond simple really. The Fog Server is completely disconnected from the rest of my network, so it doesn’t get impacted by the other devices on my network. I have a 5-port unmanaged 10/100/1000 Switch that sits between the Fog server and the 1 or 2 devices we have being deployed to.
Does my question make sense? About associating the Kernel to an image versus a host?
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@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
Does my question make sense? About associating the Kernel to an image versus a host?
FOG currently doesn’t have that capabilities. The kernel is assigned to the host and the image is assigned to the host. If there is no host record then there is nothing to link the two values to. Its missing the linking pin.
But again we haven’t confirmed that its the kernel at fault yet have we? I find its hard to believe that it IS the kernel, but anything is possible so we shouldn’t rule it out until we test it.
Other levels of debugging we can do is run a iperf test between the target computer and fog server. We can test network throughput. I also have tests for testing local hard drive (or ssd) speeds. Its possible that something is causing a slowness in writing to disk (the kernel would probably be at fault here). Right now we don’t know a lot other than it was fast at one time and now its slow.
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@george1421 said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
Does my question make sense? About associating the Kernel to an image versus a host?
FOG currently doesn’t have that capabilities. The kernel is assigned to the host and the image is assigned to the host. If there is no host record then there is nothing to link the two values to. Its missing the linking pin.
But again we haven’t confirmed that its the kernel at fault yet have we? I find its hard to believe that it IS the kernel, but anything is possible so we shouldn’t rule it out until we test it.
Other levels of debugging we can do is run a iperf test between the target computer and fog server. We can test network throughput. I also have tests for testing local hard drive (or ssd) speeds. Its possible that something is causing a slowness in writing to disk (the kernel would probably be at fault here). Right now we don’t know a lot other than it was fast at one time and now its slow.
Understood. Thank you George. I will take some time and do some testing with some different kernels and see where I end up.
I honestly think it is hardware/software related, but I am going to work through the steps to prove it today. My network setup hasn’t changed , the server itself is using a SATA SSD, so read/write speeds shouldn’t be an issue either. All cabling is CAT5e or better.
Pic of switch setup:
Pic of “station”
Power supply on the back is used to power the screens, have KVM switch for USB Mouse/keyboard for navigating Fog menu (pre deployment).
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@cdutko and @george1421 My memory is kind of hazy and I apologize for being so out of the loop lately, but just wanted to give my memory of things a little understanding as to the potential of the issue.
As you stated George, you may remember the whole VMD configuration within the BIOS of the host machine posing a potential issue. This is most likely the culprit though I don’t fully understand what this does exactly. However, this is due to the kernel as well.
If my memory is serving correctly, at some point there was a change in the Kernel’s on how it calculates hard drive partitions which we did have a patch for at some point. Memory is a bit hazy, but it was a patch to the partclone functions because editing a kernel is pretty difficult to do (though again I could be incorrect on my memory here.)
While adjusting the parameters, it was more around Page Sizing and VMD being disabled allowed the speeds to work better. It seems (too me) that the kernel element that brought the slowness issue wasn’t/isn’t really a bug, but rather an improvement to allow the VMD capabilities to be actually used appropriately. This does cause a detriment it seems, but this is semi-intentional.
I hope this makes sense and maybe allows more proper understanding of the issue and potentially a way for us (the FOG Team) to narrow down the issue and maybe come up with a better fix than “adjust this item in your bios for every machine that has the problem”.
Of course you can also simply use the older kernel that doesn’t appear to have this issue.
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@tom-elliott said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko and @george1421 My memory is kind of hazy and I apologize for being so out of the loop lately, but just wanted to give my memory of things a little understanding as to the potential of the issue.
As you stated George, you may remember the whole VMD configuration within the BIOS of the host machine posing a potential issue. This is most likely the culprit though I don’t fully understand what this does exactly. However, this is due to the kernel as well.
If my memory is serving correctly, at some point there was a change in the Kernel’s on how it calculates hard drive partitions which we did have a patch for at some point. Memory is a bit hazy, but it was a patch to the partclone functions because editing a kernel is pretty difficult to do (though again I could be incorrect on my memory here.)
While adjusting the parameters, it was more around Page Sizing and VMD being disabled allowed the speeds to work better. It seems (too me) that the kernel element that brought the slowness issue wasn’t/isn’t really a bug, but rather an improvement to allow the VMD capabilities to be actually used appropriately. This does cause a detriment it seems, but this is semi-intentional.
I hope this makes sense and maybe allows more proper understanding of the issue and potentially a way for us (the FOG Team) to narrow down the issue and maybe come up with a better fix than “adjust this item in your bios for every machine that has the problem”.
Of course you can also simply use the older kernel that doesn’t appear to have this issue.
@Tom-Elliott thank you for the detailed response.
My host system is quite an old build, so I don’t believe I even have those VMD settings to enable/disable even if I wanted to!
@george1421 /@Tom-Elliott what is interesting is that it does seem to be entirely related to the Kernel update causing the slower speeds. I don’t think that my old Celeron computers that I am imaging has enough horsepower to use the new/enhanced features that you guys implemented.
I reverted my bzImage files to the old Kernel that I was using ( 4.19.145) and my speeds have returned to the “FAST” speeds that I am expecting.
I need some way now to be able to use both the old Kernel for my (for lack of a better term) Legacy computers and then use the new Kernel for my Win10 11th/12th gen builds.
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@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
Is it possible to set this Kernel on the ‘image’ level instead? Or is Fog ‘smart’ enough to know that for all computers being deployed with this image should be associated with the Host kernel?
No and No. The kernel can only be set for hosts and/or globally.
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@sebastian-roth said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
Is it possible to set this Kernel on the ‘image’ level instead? Or is Fog ‘smart’ enough to know that for all computers being deployed with this image should be associated with the Host kernel?
No and No. The kernel can only be set for hosts and/or globally.
Hmm… I guess I would have to do quick registration of the newer computers and manually associate them with the newer Kernel?
I’m honestly not really sure what my best course of action is here.
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@cdutko Please go back to the questions I posted in my first answer. Do you see the same slowness with every hardware? Have you tried in different models? What kind hardware are we talking about?
Have you checked on the BIOS setting VMD as mentioned before?
The spectre mitigation George mentioned is being discussed here: https://forums.fogproject.org/topic/16508/enable-or-disable-speculation_mitigations-in-the-linux-kernel (Unfortunately the test kernels are long gone.)
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@sebastian-roth said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko Please go back to the questions I posted in my first answer. Do you see the same slowness with every hardware? Have you tried in different models? What kind hardware are we talking about?
Have you checked on the BIOS setting VMD as mentioned before?
The spectre mitigation George mentioned is being discussed here: https://forums.fogproject.org/topic/16508/enable-or-disable-speculation_mitigations-in-the-linux-kernel (Unfortunately the test kernels are long gone.)
I was not seeing the slow speeds with the newer equipment we are imaging. They are 11th gen Intel systems.
I do not have any bios settings with respect to VMD.
The updated kernel seemed to only effect the performance of my previous, older spec units (https://www.advantech.com/en/products/1-2jkjm3/ppc-3100s/mod_1a0afa16-fab0-4642-aec4-504d02832d28).
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@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
The updated kernel seemed to only effect the performance of my previous, older spec units (https://www.advantech.com/en/products/1-2jkjm3/ppc-3100s/mod_1a0afa16-fab0-4642-aec4-504d02832d28).
Interesting piece of hardware. What kind of hard drive do you use in those?
We should really get into testing the different parts of the hardware to find out what is causing the slowness. Please schedule a debug deploy, boot it up and when you get to the console run the following command:
dd if=/dev/zero of=/dev/sda bs=4G count=1 oflag=direct status=progress
(depending on the drive you might need to usenvme0n1
instead ofsda
) - HINT: Be aware this will wipe the data off the drive!Do this three times in a row and take a picture of the output on screen to post here.
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@sebastian-roth said in Slow Image Deployment Speeds after Updating BZImage Files:
@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
The updated kernel seemed to only effect the performance of my previous, older spec units (https://www.advantech.com/en/products/1-2jkjm3/ppc-3100s/mod_1a0afa16-fab0-4642-aec4-504d02832d28).
Interesting piece of hardware. What kind of hard drive do you use in those?
We should really get into testing the different parts of the hardware to find out what is causing the slowness. Please schedule a debug deploy, boot it up and when you get to the console run the following command:
dd if=/dev/zero of=/dev/sda bs=4G count=1 oflag=direct status=progress
(depending on the drive you might need to usenvme0n1
instead ofsda
) - HINT: Be aware this will wipe the data off the drive!Do this three times in a row and take a picture of the output on screen to post here.
Yeah it is a Panel PC that we use in our printing hardware.
We are using with that particular model, SQF-SMSM2-64G-SBE it is an SQF mSATA 640 64G MLC (40~85°C).
Am I supposed to run this command on a Client that I am deploying to? Sorry I am probably not using FOG in its intended way as I only register the hosts that I capture images from and none of the clients that I deploy images to ever get registered on the system.
Also would it make sense to do this with the Old Kernel? Since that is working… I’m assuming we want to run this Debug command with the new kernel that is ‘not working’ for me.
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@cdutko said in Slow Image Deployment Speeds after Updating BZImage Files:
Am I supposed to run this command on a Client that I am deploying to?
Yes, and the client needs to be registered for it to run a debug deploy task. If you want to figure this out you need to look into the details and run those kinds of commands which you can’t if the client is not registered.
Also would it make sense to do this with the Old Kernel? Since that is working… I’m assuming we want to run this Debug command with the new kernel that is ‘not working’ for me.
Well I suggest you do the first round of tests using the new kernel to get some figures. This will tell us if it’s disk IO causing the slowness or not.