Applying updates is considered good practice. Auto-applying is the best you can do with the money provided. My critique here is the amount of money provided.
Also, you cannot pull a Boeing and let people die just because you cannot 100% avoid accidents. There are steps in between these two states.
I work at a different company in the same security space as cloudstrike, and we spend a lot of time considering stuff like “if this goes sideways, we need to make sure the hospitals can still get patient information”.
I’m a little more generous giving the downstream entities slack for trusting that their expensive upstream security vendor isn’t shipping them something entirely fucking broken.
Like, I can’t even imagine the procedureal fuck up that results in a bsod getting shipped like that. Even if you have auto updates enabled for our stuff, we’re still slow rolling it and making sure we see things being normal before we make it available to more customers. That’s after our testing and internal deployments.
I can’t put too much blame on our customers for trusting us when we spend a huge amount of energy convincing them we can be trusted to literally protect all their infrastructure and data.
I can put the blame to your customers. If I make a contract with a bank they are responsible for my money. I don’t care about their choice of infrastructure. They are responsible for this. They have to be sued for this. Same for hospitals. Same for everyone else. Why should they be exempt from punishment for not providing the one service they were trusted to provide? Am I expected to feel for them because they made the “sensible choice” of employing the cheapest tools?
This was a business decision to trust someone external. It should not be tolerated that they point their fingers elsewhere.
Can’t fault you for feeling that way. I definitely don’t think anyone should be exempt from responsibility, I meant blame in the more emotional “ugh, you jerk” sense.
If someone can’t fulfill their responsibilities because someone they depended on failed them, they’re still responsible for that failure to me, but I’m not blaming them if that makes any sense.
Power outage or not, the store owes me an ice cream cake and they need to make things even between us, but I’m not upset with them for the power outage.
You can be reasonable in your choice of words, but there are heads that need to roll. In this case it is not the one pushing the final button, but all those that created this system. Developers, Project Managers, Team Leaders, all the way up to the CEO. If the space to work in is so limited that the possibility of such pushes seems like a tolerable idea, then everything leading to this is broken. And people need to invest to make this right. Therefore there needs to be incentives, good and bad. To steer out of the current course there need to be very unfavorable incentives.
You can mock my argument by giving a ridiculous example. Once people die it will be too late. It’s why there was a time where people thought it to be a good idea to employ giant generators to keep the power in a hospital running even in case of a power outage. Or to have redundant systems in an airplane.
There is a need for adequate standards in the software world. Trusting businesses to create them will evidently kill people. Creating something like certificates for personal skills and products is severely lacking.
I wasn’t mocking your argument, I was agreeing with you and clarifying that my feeling was about who I’m most “irritated” with, not about responsibility or legal culpability.
My example was for simplicity, not mockery.
The power going out is the power companies fault, so I’m most mad at them. The store didn’t have a generator because they trusted the power company, so my cake got ruined. I’m still mad at them but less so because they weren’t the cause of the problem, even though they could have done more to prevent this from impacting me.
Culpability wise, I can only make demands of the store and hope that enough other people do so that they in turn demand answers from the power company.
There are actually a fair number of certifications, including ones from government agencies, relating to software development, deployment, and related practices. That so many organizations didn’t have the ones relating to protection from supply chain issues is distressing, to say nothing of it slipping through quality control in the first place.
Please, if you think we’re in a place in this thread where I’d be mocking you, re-read it with the understanding that I agree with you entirely on legal and structural issues, and at most just have a different opinion about where the balance of "fuck you"s go. I think I put more scorn towards the vendor because doing the thing is worse than failing to prevent the thing. Also, I work at a parallel company and so I’m more familiar with exactly how much you have to be fucking up for this to happen because I spent the last three days dealing with the more minor controls that prevent this from happening. Everyone has outages because you can’t prevent 100% of errors, but it’s on the vendor to build to the spec of their most sensitive customer and ensure that outages don’t keep a doctor from patient records.
Not who you asked, but did you ever hear of Valiant and their kernel level anti cheat.
This is not a 1:1 comparison but anticheat software running in the kernel has the ability to monitor all other processes due to its permission levels. It can monitor all scheduled tasks and infer from that information.
Drivers need similar access but for different reasons, they need access to os functionality a user would absolutely never be granted. This is because they interface directly with hardware and means when drivers crash, they generally don’t do it gracefully. Hence the BSOD loop and the need for booting windows without drivers (i.e. safe mode) and the deletion of the misconfiguration file.
Whatever CrowdStrike’s “features” are should already be core security features of the kernel itself, or be exposed/extracted into user space.
NT was supposed to be a micro kernel. That this tool injects itself into the kernel immediately compromises the kernel. Edit: I should point out that it seems that CS injects drivers into the Linux kernel too, it might just be that Linux handles a driver crash more elegantly.
No different to the gaming anti-cheat kernel crap.
Having a “security” tool immediately compromise your actual security is absurd.
I, too, work in a similar type of company, and can confirm from experience that Linux can get just as absolutely fucked up by a bad kernel module as windows.
And it’s not just changes to the module that can cause things to go wrong.
For example, the kernel released alongside the latest Ubuntu LTS included a change that conflicted with our module behaviour, so machines with that kernel or newer would panic on boot.
It was a super minor change, but when you’re deep in the weeds, it’s really easy for these things to be brittle. But that’s just an inherent consequence of the fact that this sort of stuff is intrinsically low-level interaction with the OS itself.
I’d love to know how you plan to do user mode packet filtering. Keep in mind that on Linux, the designated API is inherently kernel mode. https://netfilter.org/
This isn’t one of the cases where we’re talking about Linux being superior to windows. Any OS will be fucked if you give it a mangled kernel module. In this case, it’s just that only one got one.
Your perception that anything that touches the kernel is an intrinsic security risk is unfounded.
The kernel is responsible for managing hardware and general low-level system operations. Anything that wants to do those things needs to get itself into kernel mode one way or another.
The typical way you do this is called a “driver” and no one thinks about them as being kernel code. Things like graphics cards and the like.
Things that want to do actions like monitor network traffic or filesystem activity system wide or in a lower level capacity than the normal tools provide also need to be kernel level.
In a security context, that specifically would include things that want to monitor raw packets rather than the parsed content that assumes the packet is well formed in a way that a malicious one might not be.
Cloudstrike does the same thing on Linux, and the typical tools for network management or advanced security are also either compiled in or loadable kernel modules.
It’s easy to forget that ip/ebtables and selinux and friends are kernel level software frequently distributed as kernel modules, in the case of the firewalls, or compiled in with a special framework and not just user mode software.
Typically auto-applying updates to your security software is considered a good IT practice.
Ideally you’d like, stagger the updates and cancel the rollout when things stopped coming back online, but who actually does it completely correctly?
Applying updates is considered good practice. Auto-applying is the best you can do with the money provided. My critique here is the amount of money provided.
Also, you cannot pull a Boeing and let people die just because you cannot 100% avoid accidents. There are steps in between these two states.
You say that, but have you considered the savings?
People are temporary. Money is forever.
I have. They are not mine. The dead people could be.
Edit: I understand you were being sarcastic. This is a topic where I chose to ignore that.
That’s totally fair. :)
I work at a different company in the same security space as cloudstrike, and we spend a lot of time considering stuff like “if this goes sideways, we need to make sure the hospitals can still get patient information”.
I’m a little more generous giving the downstream entities slack for trusting that their expensive upstream security vendor isn’t shipping them something entirely fucking broken.
Like, I can’t even imagine the procedureal fuck up that results in a bsod getting shipped like that. Even if you have auto updates enabled for our stuff, we’re still slow rolling it and making sure we see things being normal before we make it available to more customers. That’s after our testing and internal deployments.
I can’t put too much blame on our customers for trusting us when we spend a huge amount of energy convincing them we can be trusted to literally protect all their infrastructure and data.
I’m actually willing to believe that CrowdStrike was actually compromised by a bad actor that realised how fragile CS was.
I can put the blame to your customers. If I make a contract with a bank they are responsible for my money. I don’t care about their choice of infrastructure. They are responsible for this. They have to be sued for this. Same for hospitals. Same for everyone else. Why should they be exempt from punishment for not providing the one service they were trusted to provide? Am I expected to feel for them because they made the “sensible choice” of employing the cheapest tools?
This was a business decision to trust someone external. It should not be tolerated that they point their fingers elsewhere.
Can’t fault you for feeling that way. I definitely don’t think anyone should be exempt from responsibility, I meant blame in the more emotional “ugh, you jerk” sense.
If someone can’t fulfill their responsibilities because someone they depended on failed them, they’re still responsible for that failure to me, but I’m not blaming them if that makes any sense.
Power outage or not, the store owes me an ice cream cake and they need to make things even between us, but I’m not upset with them for the power outage.
You can be reasonable in your choice of words, but there are heads that need to roll. In this case it is not the one pushing the final button, but all those that created this system. Developers, Project Managers, Team Leaders, all the way up to the CEO. If the space to work in is so limited that the possibility of such pushes seems like a tolerable idea, then everything leading to this is broken. And people need to invest to make this right. Therefore there needs to be incentives, good and bad. To steer out of the current course there need to be very unfavorable incentives.
You can mock my argument by giving a ridiculous example. Once people die it will be too late. It’s why there was a time where people thought it to be a good idea to employ giant generators to keep the power in a hospital running even in case of a power outage. Or to have redundant systems in an airplane.
There is a need for adequate standards in the software world. Trusting businesses to create them will evidently kill people. Creating something like certificates for personal skills and products is severely lacking.
I wasn’t mocking your argument, I was agreeing with you and clarifying that my feeling was about who I’m most “irritated” with, not about responsibility or legal culpability.
My example was for simplicity, not mockery.
The power going out is the power companies fault, so I’m most mad at them. The store didn’t have a generator because they trusted the power company, so my cake got ruined. I’m still mad at them but less so because they weren’t the cause of the problem, even though they could have done more to prevent this from impacting me.
Culpability wise, I can only make demands of the store and hope that enough other people do so that they in turn demand answers from the power company.
There are actually a fair number of certifications, including ones from government agencies, relating to software development, deployment, and related practices. That so many organizations didn’t have the ones relating to protection from supply chain issues is distressing, to say nothing of it slipping through quality control in the first place.
Please, if you think we’re in a place in this thread where I’d be mocking you, re-read it with the understanding that I agree with you entirely on legal and structural issues, and at most just have a different opinion about where the balance of "fuck you"s go. I think I put more scorn towards the vendor because doing the thing is worse than failing to prevent the thing. Also, I work at a parallel company and so I’m more familiar with exactly how much you have to be fucking up for this to happen because I spent the last three days dealing with the more minor controls that prevent this from happening. Everyone has outages because you can’t prevent 100% of errors, but it’s on the vendor to build to the spec of their most sensitive customer and ensure that outages don’t keep a doctor from patient records.
You seem knowledgable. I’m surprised that it’s even possible for a software vendor to inject code into the kernel. Why is that necessary?
Not who you asked, but did you ever hear of Valiant and their kernel level anti cheat.
This is not a 1:1 comparison but anticheat software running in the kernel has the ability to monitor all other processes due to its permission levels. It can monitor all scheduled tasks and infer from that information.
Drivers need similar access but for different reasons, they need access to os functionality a user would absolutely never be granted. This is because they interface directly with hardware and means when drivers crash, they generally don’t do it gracefully. Hence the BSOD loop and the need for booting windows without drivers (i.e. safe mode) and the deletion of the misconfiguration file.
TL;DR: Because the underlying OS is garbage.
Whatever CrowdStrike’s “features” are should already be core security features of the kernel itself, or be exposed/extracted into user space.
NT was supposed to be a micro kernel. That this tool injects itself into the kernel immediately compromises the kernel. Edit: I should point out that it seems that CS injects drivers into the Linux kernel too, it might just be that Linux handles a driver crash more elegantly.
No different to the gaming anti-cheat kernel crap.
Having a “security” tool immediately compromise your actual security is absurd.
I, too, work in a similar type of company, and can confirm from experience that Linux can get just as absolutely fucked up by a bad kernel module as windows.
And it’s not just changes to the module that can cause things to go wrong.
For example, the kernel released alongside the latest Ubuntu LTS included a change that conflicted with our module behaviour, so machines with that kernel or newer would panic on boot.
It was a super minor change, but when you’re deep in the weeds, it’s really easy for these things to be brittle. But that’s just an inherent consequence of the fact that this sort of stuff is intrinsically low-level interaction with the OS itself.
I’d love to know how you plan to do user mode packet filtering. Keep in mind that on Linux, the designated API is inherently kernel mode. https://netfilter.org/
This isn’t one of the cases where we’re talking about Linux being superior to windows. Any OS will be fucked if you give it a mangled kernel module. In this case, it’s just that only one got one.
Your perception that anything that touches the kernel is an intrinsic security risk is unfounded.
The kernel is responsible for managing hardware and general low-level system operations. Anything that wants to do those things needs to get itself into kernel mode one way or another.
The typical way you do this is called a “driver” and no one thinks about them as being kernel code. Things like graphics cards and the like.
Things that want to do actions like monitor network traffic or filesystem activity system wide or in a lower level capacity than the normal tools provide also need to be kernel level.
In a security context, that specifically would include things that want to monitor raw packets rather than the parsed content that assumes the packet is well formed in a way that a malicious one might not be.
Cloudstrike does the same thing on Linux, and the typical tools for network management or advanced security are also either compiled in or loadable kernel modules.
It’s easy to forget that ip/ebtables and selinux and friends are kernel level software frequently distributed as kernel modules, in the case of the firewalls, or compiled in with a special framework and not just user mode software.