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f6232aa70f
TODO: - $(pcrs) call sometimes fail in DEBUG call, outputting too many chars to be inserted in kmesg. Call removed here since redundant (PCR6 already extended with LUKS header) - Notes added for TPM2 simplification over TPM1 in code as TODO Signed-off-by: Thierry Laurion <insurgo@riseup.net>
123 lines
4.1 KiB
Markdown
123 lines
4.1 KiB
Markdown
Frequently Asked Questions about Heads
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===
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Why replace UEFI with coreboot?
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---
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While Intel's edk2 tree that is the base of UEFI firmware is open source,
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the firmware that vendors install on their machines is proprietary and
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closed source. Updates for bugs fixes or security vulnerabilities
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are at the vendor's convenience; user specific enhancements are likely not
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possible; and the code is not auditable.
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UEFI is much more complex than the BIOS that it replaced. It consists of
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millions of lines of code and is an entire operating system,
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with network device drivers, graphics, USB, TCP, https, etc, etc, etc.
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All of these features represents increased "surface area" for attacks,
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as well as unnecessary complexity in the boot process.
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coreboot is open source and focuses on just the code necessary to bring
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the system up from reset. This minimal code base has a much smaller
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surface area and is possible to audit. Additionally, self-help is
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possible if custom features are required or if a security vulnerability
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needs to be patched.
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What's wrong with UEFI Secure Boot?
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---
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Can't audit it, signing keys are controlled by vendors,
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doesn't handle hand off in all cases, depends on possible leaked keys.
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Why use Linux instead of vboot2?
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---
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vboot2 is part of the coreboot tree and is used by Google in the
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Chromebook system to provide boot time security by verifying the
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hashes on the coreboot payload. This works well for the specialized
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Chrome OS on the Chromebook, but is not as flexible as a measured
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boot solution.
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By moving the verification into the boot scripts we're able to have
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a much flexible verification system and use more common tools like PGP
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to sign firmware stages.
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What about Trusted GRUB?
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---
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The mainline grub doesn't have support for TPM and signed kernels, but
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there is a Trusted grub fork that does. Due to philosophical differences
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the code might not be merged into the mainline. And due to problems
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with secure boot (which Trusted Grub builds on), many distributions have
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signed insecure kernels that bypass all of the protections secure
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boot promised.
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Additionally, grub is closer to UEFI in that it must have device
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drivers for all the different boot devices, as well as filesystems.
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This duplicates the code that exists in the Linux kernel and has its
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own attack surface.
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Using coreboot and Linux as a boot loader allows us to restrict
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the signature validation to keys that we control. We also have one code
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base for the device drivers in the Linux-as-a-boot-loader as well
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as Linux in the operating system.
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What is the concern with the Intel Management Engine?
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---
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"Rootkit in your chipset", "x86 considered harmful", etc
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How about the other embedded devices in the system?
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---
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#goodbios, funtenna, etc.
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Should we be concerned about the binary blobs?
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---
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Maybe. x230 has very few (MRC) since it has native vga init.
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Why use ancient Thinkpads instead of modern Macbooks?
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---
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coreboot support, TPM, nice keyboards, cheap to experiment on.
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How likely are physical presence attacks vs remote software attacks?
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Who knows.
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Defense in depth vs single layers
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Yes.
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is it worth doing the hardware modifications?
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Depends on your threat model.
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Should I validate the TPMTOTP on every boot?
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Probably. I want to make it also do it at S3.
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suspend vs shutdown?
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S3 is subject to cold boot attacks, although they are harder to
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pull off on a Heads system since the boot devices are constrained.
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However, without tpmtotp in s3 it is hard to know if the system is in
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a safe state when the xscreensaver lock screen comes up. Is it a fake
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to deceive you and steal your login password? Maybe! It wouldn't get
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your disk password, which is perhaps an improvement.
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Disk key in TPM (LUKS TPM Disk Unlock Key) or user passphrase?
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Depends on your threat model. With the Disk Unlock Key in the TPM an
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attacker would need to have the entire machine (or a backdoor in the TPM)
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to get the key and their attempts to unlock it can be rate limited
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by the TPM hardware.
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However, this ties the disk to that one machine (without having to
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recover and type in the master key), which might be an unacceptable risk
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for some users.
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