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77 lines
3.9 KiB
Markdown
77 lines
3.9 KiB
Markdown
5 years ago
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# Symmetric SSSS
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[MSC1946 (Secure Secret Storage and
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Sharing)](https://github.com/matrix-org/matrix-doc/pull/1946) proposed a way of
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storing encrypted secrets on the server. In the proposal, secrets were
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encrypted using a Curve25519 key, which was chosen to allow easier migration
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from key backups that we created before the backup key was stored using it.
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However this does not provide any guarantees that data stored using the
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proposal came from a trusted source. To remedy this, we propose to change the
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encryption to use AES with a MAC to ensure that only someone who knows the key
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is able to store data.
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## Proposal
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* The `m.secret_storage.v1.curve25519-aes-sha2` method proposed in MSC1946 is
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removed.
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* A new method, `m.secret_storage.v1.aes-hmac-sha2`, is added. With this
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method, the Secret Storage key may be any size (though 256 bits is
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recommended), and data is encrypted as follows:
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1. Given the secret storage key, generate 64 bytes by performing an HKDF with
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SHA-256 as the hash, a salt of 32 bytes of 0, and with the secret name as
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the info. The first 32 bytes are used as the AES key, and the next 32 bytes
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are used as the MAC key
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2. Generate 16 random bytes, set bit 63 to 0 (in order to work around
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differences in AES-CTR implementations), and use this as the AES
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initialization vector. This becomes the `iv` property, encoded using base64.
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3. Encrypt the data using AES-CTR-256 using the AES key generated above. This
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encrypted data, encoded using base64, becomes the `ciphertext` property.
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4. Pass the raw encrypted data (prior to base64 encoding) through HMAC-SHA-256
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using the MAC key generated above. The resulting MAC is base64-encoded and
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becomes the `mac` property.
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(We use AES-CTR to match file encryption and key exports.)
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If the key Secret Storage key is generated from a passphrase, information
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about how to generate the key is stored in the `passphrase` property of the
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key's account-data in a similar manner to what was done with the original
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`m.secret_storage.v1.curve25519-aes-sha2` method, except that there is an
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optional `bits` parameter that defaults to 256, and indicates the number of
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bits that should be generated from PBKDF2 (in other words, the size of the
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key).
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* The `passthrough` property specified in the "Enconding the recovery key for
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server-side storage via MSC1946" section of MSC1219 is removed. The primary
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purpose of that property was to allow easy migration of pre-MSC1946 backups,
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so that users could reuse the backup recovery key as the Secret Storage key
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without needing to re-enter the recovery key. However, since we are now
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using a symmetric encryption algorithm, the client needs to know the key that
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is used to encrypt, so the purpose of the field cannot be fulfilled.
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## Potential issues
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Users who have data stored using the old encryption algorithm will need their
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data migrated. Clients that support the old algorithm but not the new
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algorithm will not be able to use the migrated secrets until they are updated
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with the new algorithms. This should not be a major problem because the only
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clients that are known to have implemented the old algorithm are Riot
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Web/Android/iOS, and they have been upgraded to implement the new algorithm.
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## Alternatives
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Rather than switching to a symmetric encryption algorithm, we could stay with
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an asymmetric encryption algorithm, and add on a method to authenticate the
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data. However, it is much safer to use well-known cryptographic methods rather
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than trying to invent something new. Since the main reason for using an
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asymmetric scheme was to ease migration from older key backups without
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requiring the user to re-enter the key, but this is no longer possible due to
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the need to authenticate the data using the Secret Storage key, there is no
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reason to stay with an asymmetric algorithm. It is also better to use
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cryptographic methods already used in Matrix where possible, rather than
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introducing something new.
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