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SubjectRe: [RFC] UBIFS authentication
Hi David,

On Wed, Jan 17, 2018 at 04:19:14PM +0100, David Gstir wrote:
> Hi everybody!
>
> ### Index Authentication
>
> Through UBIFS' concept of a wandering tree, it already takes care of only
> updating and persisting changed parts from leaf node up to the root node
> of the full B+ tree. This enables us to augment the index nodes of the tree
> with a hash over each node's child nodes. As a result, the index basically also
> a Merkle tree. Since the leaf nodes of the index contain the actual filesystem
> data, the hashes of their parent index nodes thus cover all the file contents
> and file metadata. When a file changes, the UBIFS index is updated accordingly
> from the leaf nodes up to the root node including the master node. This process
> can be hooked to recompute the hash only for each changed node at the same time.
> Whenever a file is read, UBIFS can verify the hashes from each leaf node up to
> the root node to ensure the node's integrity.
>
> To ensure the authenticity of the whole index, the UBIFS master node stores a
> keyed hash (HMAC) over its own contents (which includes the location of the root
> node) and the root node of the index tree. As mentioned above, the master node
> is always written to the flash whenever the index is persisted (ie. on index
> commit).
>
> Using this approach only UBIFS index nodes and the master node are changed to
> include a hash. All other types of nodes will remain unchanged. This reduces
> the storage overhead which is precious for users of UBIFS (ie. embedded
> devices).
>
>
> HMAC Master Node
> |
> ' ' ' ' ' ' ' ' ' ' ' ' ' '|' '
> ' +---------------+ o '
> ' | Master Node | '
> ' +---------------+ ' Hash Index Node #1
> ' | ' |
> . . . . . . . .'. . . . . . v . . . . . . . . . . . . . . . .|. . . . .
> . ' +---------------+ ' o .
> . ' | Index Node #1 | ' .
> . ' +---------------+ ' .
> . ' | ... | (fanout: 8) .
> . ' ' ' ' | ' ' ' ' | ' ' ' ' ' .
> . +-------+ +------+ .
> . | | .
> . ' ' ' ' ' v ' ' ' ' ' ' ' ' ' ' ' v ' ' ' ' ' ' ' ' ' ' ' .
> . ' +---------------+ ' ' +---------------+ ' .
> . ' | Index Node #2 | ' ' | Index Node #3 | ' .
> . ' +---------------+ ' ' +---------------+ ' .
> . ' | ... ' ' | ... | ' .
> . . . ' . v . . . . . . . '. ' . . . v . . . . v . . . . . . . .' . . .
> ' +-----------+ ' '+----------+ +-----------+ '
> ' | Data Node | ' '| INO Node | | DENT Node | '
> ' +-----------+ ' '+----------+ +-----------+ '
> ' o ' ' o '
> ' '|' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '|' '
> | |
> Hash Index Node #2 Hash Index Node #3

When a hash covers an index node and also its children then of course
this is really space efficient, but this also means that in order to
read a node we always have to read all of its children. Also adding a
new leaf node means rehashing all siblings. Is it really worth paying
this price to save a few bytes for more hashes?
I would rather suggest to add a hash per child to each index node.

Sascha

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