Management: Well we lost 8 billion dollars but we still don’t have any extra money for backups or remote reimaging or vdi, but we will buy you 700 plane tickets to go to each computer and boot it into safe mode, also you’re fired
Management: Our consultants don’t know what ebpf or what immutable filesystems are so obviously your wizard magic is not better than crowdstrike. Also IT will be in charge of that one component and clickops it bypassing the entire CICD pipeline and sanity checking system you have. It’s for compliance which is our word for shut up or we fire you.
Much less invest in a memory safe language. If they don’t take a serious look at Rust, Go, or some other memory-safe language… I’ll stop right there: they won’t. Management doesn’t give a fuck as long as the cost is within manageable margins, or they can fire a bunch of scapegoats but change nothing.
I might be wrong, but from how I understand it it probably wouldn’t help. Kernel drivers have a rigorous QA and cert by Microsoft if you want to get them signed, which is a process that may take a long time - longer than you can afford when pushing updates to AV/EDR to catch emerging threats. What Crowdstrike does to bypass this requirement is that the CS Falcon is just an engine, that loads, interprets and executes code from definition files. The kernel driver code then doesn’t need to change, so no need for new MS cert, and they can just push new definition files. So, they kind of have to deal with unsafe in this case, since you are executing a new code.
What Crowdstrike does to bypass this requirement is that the CS Falcon is just an engine, that loads, interprets and executes code from definition files.
If Microsoft really has “rigorous QA and cert” for kernel drivers then they shouldn’t have certified this, because now it’s a certified bypass for the certification.
I don’t think that rust would have prevented this one, since this isn’t a compile time error (for the code loader).The address dereferencing would have been inside an unsafe block. What was missing was a validity check of the CI build artifacts and payload check on the client side.
I do however, think that the ‘fingers-crossed’ approach to memory safety in C and C++ must stop. Rust is a great fit for this use case.
Management: Well we lost 8 billion dollars but we still don’t have any extra money for backups or remote reimaging or vdi, but we will buy you 700 plane tickets to go to each computer and boot it into safe mode, also you’re fired
Management: Our consultants don’t know what ebpf or what immutable filesystems are so obviously your wizard magic is not better than crowdstrike. Also IT will be in charge of that one component and clickops it bypassing the entire CICD pipeline and sanity checking system you have. It’s for compliance which is our word for shut up or we fire you.
I think I will steal this.
Much less invest in a memory safe language. If they don’t take a serious look at Rust, Go, or some other memory-safe language… I’ll stop right there: they won’t. Management doesn’t give a fuck as long as the cost is within manageable margins, or they can fire a bunch of scapegoats but change nothing.
Anti Commercial-AI license
a kernel module should not be written in Go
Rust makes sense though.
I might be wrong, but from how I understand it it probably wouldn’t help. Kernel drivers have a rigorous QA and cert by Microsoft if you want to get them signed, which is a process that may take a long time - longer than you can afford when pushing updates to AV/EDR to catch emerging threats. What Crowdstrike does to bypass this requirement is that the CS Falcon is just an engine, that loads, interprets and executes code from definition files. The kernel driver code then doesn’t need to change, so no need for new MS cert, and they can just push new definition files. So, they kind of have to deal with unsafe in this case, since you are executing a new code.
If Microsoft really has “rigorous QA and cert” for kernel drivers then they shouldn’t have certified this, because now it’s a certified bypass for the certification.
I don’t think that rust would have prevented this one, since this isn’t a compile time error (for the code loader).The address dereferencing would have been inside an unsafe block. What was missing was a validity check of the CI build artifacts and payload check on the client side.
I do however, think that the ‘fingers-crossed’ approach to memory safety in C and C++ must stop. Rust is a great fit for this use case.
Well, modern c++ with smartpointers is quite good IMO.
C on the ither hand is like swimming with sharks, with a nosebleed.
while management at CrowdStrike: we are doubling the number of min commits and reviews per day to make up for the damage