Security notes - encryption-supporting functionality: Difference between revisions
m (→TPM) |
|||
Line 567: | Line 567: | ||
==UEFI== | ==UEFI== | ||
=Platform: ARM= | |||
=Platform: Apple= | =Platform: Apple= |
Revision as of 11:32, 27 June 2024
Security related stuff.
Securing services
Unsorted - · Anonymization notes · website security notes · integrated security hardware · Glossary · unsorted |
Terminology
Trusted Execution Environment (TEE)
Keystore
Also
Platform: PC / x86
AES instructions
TEE and runtime protection
TPM
What is it?
It's a hardware module that assists a few security needs
Part of its job is just to be separate, because that allows it to do some things with more secrecy than is easy to guarantee otherwise -- if used well, that is. And with footnotes (separation is also potential attack surface)
For some other needs it's more of a coprocessor thing, which doesn't always make much difference
Physically, TPM started as a clearly separate extra chip/module, that might be built into laptops (fairly common in business laptops), and for PC motherboards started as a plug-in module that was originally very optional -- and now, years later, Microsoft is pushing very hard on the concept, in that they refuse to run Windows 11 if it's not there or it's an older version[1].
Integrated?
These days, you also find TPM is integrated into CPUs (Intel calls it PTT, AMD calls it fTPM).
This is functionally similar to a separate TPM - it has its own storage, it can't be altered, only talked to via the same specific protocol.
Upsides
- saves having to deal with one more component
- and helps against some physical attacks
Arguables:
- it's possible that some attacks might be possible due to being integrated.
- Yes, it's isolated by a communication channel - that was part of the point - and TPM(1) communication is more easily sniffed if it's an exposed trace because that is itself unencrypted
- yet I wouldn't be surprised if there are side-channel attacks due to being on the same silicon.
Downsides:
- it is now harder to upgrade the CPU (rarely a thing in laptops, but surely so in desktops)
What does it do?
Being part of a larger idea, the TPM is a different thing to different people/needs.
It should also be note that it only makes attack surface smaller when used well.
Used poorly it changes very little,
and there is also the concept of blind trust leading to riskier behaviour.
(I'm still waiting for the day that more than a few percent of people start using GPG in an actually secure way, and that's twenty years old)
More technically, it e.g.
- helps store some keys,
- can create derived keys without revealing the original
- can do certain encryption/decryption for you
- may let you mark keys as "never allow these keys to be copied out" - which effectively ties certain keys to specific TPM hardware permanently
That
- may makes it harder to steal certain keys,
- may force us to use mechanisms that use derived keys rather than the master key,
- may mean there are some cases where you can use a key it stored without every transporting it out
- you might e.g. message signing (to prove you have a key) without ever having that key in RAM
- may let you tie certain uses to specific hardware (for better and worse)
- great for a select few uses, and alleviates certain physical attacks, because now only a single piece of hardware can do a thing
- complete show stoppers for others
- and a potentially risky tradeoff for some others yet - for example, you can force an encrypted drive to only work on the computer you encrypted it on. And if ever separated, you can basically never read that data again.
- you can prevent running boot code that wasn't previously approved
- as protection against malware that alters the boot
- again, with footnotes. Like - who does the approving?
On secure boot
"Can't detect TPM device"
Means the BIOS knows that you can plug in a TPM module, and is looking for it (configured to do so, or always does), and doesn't find one.
So tell it not to look for one (if you can), plug one in, or ignore this message. It's often under a header named something like 'Trusted Computing'
Some BIOSes will always look for it(verify), in which case you can just ignore the message.
More acronyms
What does TPM not (necessarily) protect?
TPM versus TPM2
Use and criticism, strengths and weaknesses
See also