Local Encryption ... Why Not?
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Potential Issue to address:
In the Wave / Samsung scenario... I had a laptop that had Active Directory fail from Microsoft. Would this have made the data on my laptop unavailable to me? How would I retrieve it in a situation where AD has failed and I no longer have access to my laptop?
(This did not affect me as I neither encrypted nor stored data on my laptop. But in theory...)
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Potential Issue to Address:
I recently had a Mac do an OS update. In doing so it broke the encryption system and I lost the ability to boot the OS. This left me stranded in another country without a working laptop. I could do nothing as it was encrypted. I could not boot nor repair nor retrieve data. How would you address this?
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@BRRABill said:
How do these systems deal with my questions, though?
- local outlook data store
Outlook is an outmoded product and has been for a long time. Even MS barely uses it any more. This is a perfect example of using fat, local software where lean, remote software works better in most cases (always an exception.)
I use Exchange but don't use Outlook. Works far better with OWA than with Outlook. What we are talking about here is not using products like this.
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@BRRABill said:
- synced files from cloud providers
Why would you by syncing? Again, the point is not to do these things.
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@BRRABill said:
- temporary files created
There are options here...
- Destroy at shutdown
- Not store at all (not very reasonable)
- Keep unencrypted because.... how often does this matter?
- Encrypt via the application.
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@BRRABill said:
It has also been mentioned that in a doctor office, the staff cannot be instructed to enter a password, either for a NAS or for something like Bitlocker. But if it provides encryption of some sort, and gives another layer of protection, wouldn't this be a valuable use of something to train them on?
Training is not a concern. Usage is the concern. Experience with these types of users is that they will at best regret the decision, typically blame IT for making things complicated and very often you will lose the client to another MSP who shows the doctor how to "fix" the problem.
As the MSP you'll either have to put the doctor at risk by forcing them only to keep the password and have no one to turn to when they lose or forget it or you as the MSP will have to track the password and then you carry a risk that you don't want to carry.
I see, in the real world, few good scenarios for this. Training is not a concern, long term usage and happiness will be the big factor. When a NAS stays online for three years, all staff turns over and suddenly it reboots and all data is lost and the business is "down" because of the "darn MSP making things complicated" you don't want to face the ire of people who don't remember why this was done in the first place.
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@BRRABill said:
I also understand the concept that things like servers, or any device with important data should be locked up, and almost impossible to gain physical access to. But just in case, why not add the extra protection?
Because encryption always adds risk. It might take risk away, but it always adds risk too. It's always a tradeoff in risks. When the risk you are taking away is completely trivial, you don't really want to make that tradeoff.
I've worked in some of the most secure environments in the world and even there they would only encrypt in the most specific circumstances. Even their security team (we are talking potentially seven figure security advisors) and their entire IT team would general advise against encryption for 90% of workloads because it introduces big risk while reducing effectively none.
If the biggest, riskiest, most attacked, biggest budget, most secure environments in the world think that it is a silly waste of resources and that it does not add any meaningful protection: it is worth listening.
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@scottalanmiller said:
Is this product free? How reliable is it? What happens if you have Active Directory issues? Do you now have to track individual admin passwords for each machine?
It is not free. It is $39 standalone.
Been reliable so far except when an AV program broke it. And even that didn't break it, it just broke the single sign on for that client, which I do not have enable on my machine anyway.
I guess it would depend on the AD issues. If worst came to worst, I could log in as the SED Admin account I created on the drive and unlock it.
You do have to track admin passwords. They have software that integrates in a larger environment, but for me it's just as easy to track the admin passwords. I use a huge complex password, and keep it the same on all the devices I need to manage.
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@BRRABill said:
I am under the impression that for HIPAA, if a laptop with PHI is lost, and the drive is encrypted, that is basically not a violation for them, as the data is deemed inaccessible. No encryption? It is a major issue.
This is a grey area. There are no checkboxes with HIPAA. There are "anti-checkboxes", meaning things that you can never do, but there is nothing that you always have to do. Things that must be avoided but nothing that has to be done.
HIPAA is about "reasonable efforts at security." And much of that will come down to expert witnesses and a judge making a determination. If I had a laptop stolen and it was encrypted and someone broke that encryption I'd hate to face an expert witness and a judge who ask me "so why did you have data on a laptop in the first place?"
Encryption would be expected in that situation, but if not implemented well it would no more protect you from a HIPAA fine than if you did not have it. It's a good starting point once you assume you are doing things like putting data on endpoints. But we will keep coming back to asking "why are we being so risky in the first place and does encrypting those devices encourage reckless behaviour?"
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@BRRABill said:
I guess it would depend on the AD issues. If worst came to worst, I could log in as the SED Admin account I created on the drive and unlock it.
You do have to track admin passwords. They have software that integrates in a larger environment, but for me it's just as easy to track the admin passwords. I use a huge complex password, and keep it the same on all the devices I need to manage.
So if that one password was to be compromised, all encryption would be useless? And if that one password is not available, all of that data is at risk? I don't like the sounds of those odds. I can see cases where that would make sense, but I'd feel pretty worried in any situation where I felt the need to deploy it.
If I have data stored somewhere, I want to know that it can be retrieved reliably. If I don't need it retrieved reliably, why store it there?
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@scottalanmiller
I agree here... if there is no data on the endpoint.. there is nothing to worry about - atthat end
. You move it to the convenience and the host.You also pretty much pull all your costs back to your network and your host as you need next to nothing but a terminal at the user.
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@BRRABill said:
It is not free. It is $39 standalone.
Not bad but that adds up, too. If the question is "why not just do it", I'd say that it needs to have a clear value in excess of $39 as a starting point. For most machines that I deal with, it would not. The cost of the license and license management alone would be too costly before we consider any risk that it introduces, performance loss that it causes or IT overhead cost that it brings in.
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@scottalanmiller said:
So if that one password was to be compromised, all encryption would be useless? And if that one password is not available, all of that data is at risk? I don't like the sounds of those odds. I can see cases where that would make sense, but I'd feel pretty worried in any situation where I felt the need to deploy it.
If it was compromised the encryption wouldn't be useless, the person with the compromised password could just access the data. So they would have to have somehow gained access to my very complex password AND stolen the machine with the SED.
The password is always available, unless I am dead. And even in that instance, the user still have their password so they could get in, and the data on these systems are all backed up. (Also with encryption both locally and in the cloud.)
I think the switchover point is around machines, where they recommend central management. But for a one-off here and there it wouldn't make sense.
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@scottalanmiller said:
HIPAA is about "reasonable efforts at security." And much of that will come down to expert witnesses and a judge making a determination. If I had a laptop stolen and it was encrypted and someone broke that encryption I'd hate to face an expert witness and a judge who ask me "so why did you have data on a laptop in the first place?"
But again, what are the odds of this?
As has been discussed in other threads, there is a still a lot of data on endpoints, right or wrong. Or at least, that is my feeling. Would love to hear other thoughts of people in the wild or this.
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In your "all on the cloud" example...
Let's say a covered entity transfers a file of mailing addresses (PHI, obviously) to me. It stored on a HIPAA-compliant cloud service, so no issues there. I want to bring down the file to locally make labels and print on my machine.
How does this work? I assume you'd download it, do your work, and then delete all instances?
I guess in this scenario, I could use a product like "Deep Freeze" so there is NEVER any data on there. But that is a very limited case.
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@scottalanmiller said:
Why would you by syncing? Again, the point is not to do these things.
Usage on a laptop when there is not WiFi?
Or if they are very large files, so as to not have to wait to work with them?
Or if they are files for which there is no cloud-version available. Such as a lot of the third party software we've been discussing. And while products such as QuickBooks or Lacerte might have better alternatives, a lot of the proprietary stuff you'd see in a doctor's office, or financial planner's office might not.
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@BRRABill said:
@scottalanmiller said:
So if that one password was to be compromised, all encryption would be useless? And if that one password is not available, all of that data is at risk? I don't like the sounds of those odds. I can see cases where that would make sense, but I'd feel pretty worried in any situation where I felt the need to deploy it.
If it was compromised the encryption wouldn't be useless, the person with the compromised password could just access the data. So they would have to have somehow gained access to my very complex password AND stolen the machine with the SED.
The password is always available, unless I am dead. And even in that instance, the user still have their password so they could get in, and the data on these systems are all backed up. (Also with encryption both locally and in the cloud.)
I think the switchover point is around machines, where they recommend central management. But for a one-off here and there it wouldn't make sense.
Unless the encryption system has some type of OS that boots before windows, how does that part work?
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@BRRABill said:
In your "all on the cloud" example...
Let's say a covered entity transfers a file of mailing addresses (PHI, obviously) to me. It stored on a HIPAA-compliant cloud service, so no issues there. I want to bring down the file to locally make labels and print on my machine.
How does this work? I assume you'd download it, do your work, and then delete all instances?
I guess in this scenario, I could use a product like "Deep Freeze" so there is NEVER any data on there. But that is a very limited case.
Well, if you are working with something like O365 and ODfB and SharePoint, you don't download it in the traditional sense. it's downloaded to your application where you do what you need.. when you close it.. the temp files are deleted by default and the file is saved back to the cloud where you go it, all automagically.
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@Dashrender said:
Unless the encryption system has some type of OS that boots before windows, how does that part work?
It is built into the drive.
Once the machine boots past the DELL logo, a WAVE screen comes up asking for a password.
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@BRRABill said:
@scottalanmiller said:
So if that one password was to be compromised, all encryption would be useless? And if that one password is not available, all of that data is at risk? I don't like the sounds of those odds. I can see cases where that would make sense, but I'd feel pretty worried in any situation where I felt the need to deploy it.
If it was compromised the encryption wouldn't be useless, the person with the compromised password could just access the data. So they would have to have somehow gained access to my very complex password AND stolen the machine with the SED.
The password is always available, unless I am dead. And even in that instance, the user still have their password so they could get in, and the data on these systems are all backed up. (Also with encryption both locally and in the cloud.)
I think the switchover point is around machines, where they recommend central management. But for a one-off here and there it wouldn't make sense.
I don't know, the bigger the scale the bigger the risk and the more important that it is to keep the data off of the machines completely. The bigger you get, the more this kind of stuff costs in raw numbers.
Also, keep in mind your number one thread is end users themselves and social engineering both of which bypass encryption automatically.