Re: [PATCH v4] KEYS: encrypted: fix key instantiation with user-provided data

[Nikolaus Voss]

On Fri, 14 Oct 2022, Mimi Zohar wrote:
> On Fri, 2022-10-14 at 08:40 +0200, Nikolaus Voss wrote:
> > On Thu, 13 Oct 2022, Mimi Zohar wrote:
> > > On Thu, 2022-10-13 at 08:39 +0200, Nikolaus Voss wrote:
> > > > Commit cd3bc044af48 ("KEYS: encrypted: Instantiate key with user-provided
> > > > decrypted data") added key instantiation with user provided decrypted data.
> > > > The user data is hex-ascii-encoded but was just memcpy'ed to the binary buffer.
> > > > Fix this to use hex2bin instead.
> > > >
> > > > Old keys created from user provided decrypted data saved with "keyctl pipe"
> > > > are still valid, however if the key is recreated from decrypted data the
> > > > old key must be converted to the correct format. This can be done with a
> > > > small shell script, e.g.:
> > > >
> > > > BROKENKEY=abcdefABCDEF1234567890aaaaaaaaaa
> > > > NEWKEY=$(echo -ne $BROKENKEY | xxd -p -c32)
> > > > keyctl add user masterkey "$(cat masterkey.bin)" @u
> > > > keyctl add encrypted testkey "new user:masterkey 32 $NEWKEY" @u
> > > >
> > > > It is encouraged to switch to a new key because the effective key size
> > > > of the old keys is only half of the specified size.
> > >
> > > Both the old and new decrypted data size is 32 bytes.  Is the above
> > > statement necessary, especially since the Documentation example does
> > > the equivalent?
> >
> > The old key has the same byte size but all bytes must be within the
> > hex-ascíi range of characters, otherwise it is refused by the kernel.
> > So if you wanted a 32 bytes key you get 16 effective bytes for the key.
> > In the above example the string size of the $BROKENKEY is 32, while
> > the string size of the $NEWKEY is 64.
> >
> > If you do
> >
> > $ echo $NEWKEY
> > 6162636465664142434445463132333435363738393061616161616161616161
> >
> > for the example, the range problem is obvious, so $NEWKEY is still broken.
> > That's why it should only be used to recover data which should be
> > reencypted with a new key. If you count exactly, the effective key size is
> > _slightly_ longer than half of the specified size, but it is still a
> > severe security problem.
>
> So the issue with NEWKEY isn't the "effective key size of the old keys
> is only half of the specified size", but that the old key, itself, is
> limited to the hex-ascii range of characters.

The latter resulting in the former. If for BROKENKEY 32 bytes were 
specified, a brute force attacker knowing the key properties would only 
need to try at most 2^(16*8) keys, as if the key was only 16 bytes long. 
This is what I mean with "effective size" in contrast to the key's byte 
size which is 32 in my example.

The security issue is a result of the combination of limiting the input 
range to hex-ascii and using memcpy() instead of hex2bin(). It could have 
been fixed either by allowing binary input or using hex2bin() (and 
doubling the ascii input key length). I chose the latter.

Niko