Did you try WITHOUT ROWID? Your sqlite implementation[1] uses a BLOB primary key. In SQLite, this means each operation requires 2 b-tree traversals: The BLOB->rowid tree and the rowid->data tree.
If you use WITHOUT ROWID, you traverse only the BLOB->data tree.
Looking up lexicographically similar keys gets a huge performance boost since sqlite can scan a B-Tree node and the data is contiguous. Your current implementation is chasing pointers to random locations in a different b-tree.
I'm not sure exactly whether on disk size would get smaller or larger. It probably depends on the key size and value size compared to the 64 bit rowids. This is probably a well studied question you could find the answer to.
If you use WITHOUT ROWID, you traverse only the BLOB->data tree.
Looking up lexicographically similar keys gets a huge performance boost since sqlite can scan a B-Tree node and the data is contiguous. Your current implementation is chasing pointers to random locations in a different b-tree.
I'm not sure exactly whether on disk size would get smaller or larger. It probably depends on the key size and value size compared to the 64 bit rowids. This is probably a well studied question you could find the answer to.
[1]: https://git.deuxfleurs.fr/Deuxfleurs/garage/src/commit/4efc8...