[PATCH v4] KEYS: encrypted: Instantiate key with user-provided decrypted data
Yael Tiomkin
yaelt at google.com
Wed Jan 26 20:56:44 UTC 2022
On Wed, Jan 26, 2022 at 9:51 AM Jarkko Sakkinen <jarkko at kernel.org> wrote:
>
> On Wed, Jan 26, 2022 at 04:47:22PM +0200, Jarkko Sakkinen wrote:
> > On Tue, Jan 18, 2022 at 01:26:05PM -0500, Martin Ross wrote:
> > > Hi Jarkko,
> > >
> > > I have been working with Yael on this project so I thought I might add
> > > a bit of background here around the use case that this series of
> > > patches is trying to address.
> > >
> > > At a high level we are trying to provide users of encryption that have
> > > key management hierarchies a better tradeoff between security and
> > > availability. For available and performance reasons master keys often
> > > need to be released (or derived/wrapped keys created) outside of a KMS
> > > to clients (which may in turn further wrap those keys in a series of
> > > levels). What we are trying to do is provide a mechanism where the
> > > wrapping/unwrapping of these keys is not dependent on a remote call at
> > > runtime. e.g. To unwrap a key if you are using AWS KMS or Google
> > > Service you need to make an RPC. In practice to defend against
> > > availability or performance issues, designers end up building their
> > > own kms and effectively encrypting everything with a DEK. The DEK
> > > encrypts same set as the master key thereby eliminating the security
> > > benefit of keeping the master key segregated in the first place.
>
> Mainly this part (would be enough to explain why it is there).
>
> BR, Jarkko
Hi Jarkko,
As for the commit message, WDYT about the following:
KEYS: encrypted: Instantiate key with user-provided decrypted data
For availability and performance reasons master keys often need to be
released outside of a KMS to clients. It would be beneficial to provide a
mechanism where the wrapping/unwrapping of DEKs is not dependent
on a remote call at runtime yet security is not (or only minimally) compromised.
Master keys could be securely stored in the Kernel and be used to wrap/unwrap
keys from userspace.
The encrypted.c class supports instantiation of encrypted keys with
either an already-encrypted key material, or by generating new key
material based on random numbers. This patch defines a new datablob
format: [<format>] <master-key name> <decrypted data length>
<decrypted data> that allows to inject and encrypt user-provided
decrypted data.
I want to make sure we're on the same page before publishing a new version.
Thanks,
Yael
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