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author | manuroe <manu@matrix.org> | 2016-11-07 17:21:39 +0100 |
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committer | manuroe <manu@matrix.org> | 2016-11-07 17:21:39 +0100 |
commit | 5d1b66c350ac017613982f904b896750766654de (patch) | |
tree | a290c557e7881f7eb48cbdd568a4f3e43cb749c6 /docs/signing.rst | |
parent | 62f52806702b799b9e25e7cdf07be1c8a31325a2 (diff) | |
parent | f6c05be8c5d35e725a8a2ed5ad661398ac9f8cd2 (diff) |
Merge remote-tracking branch 'origin/master' into olmkit
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diff --git a/docs/signing.rst b/docs/signing.rst new file mode 100644 index 0000000..7387794 --- /dev/null +++ b/docs/signing.rst @@ -0,0 +1,118 @@ +.. Copyright 2016 OpenMarket Ltd +.. +.. Licensed under the Apache License, Version 2.0 (the "License"); +.. you may not use this file except in compliance with the License. +.. You may obtain a copy of the License at +.. +.. http://www.apache.org/licenses/LICENSE-2.0 +.. +.. Unless required by applicable law or agreed to in writing, software +.. distributed under the License is distributed on an "AS IS" BASIS, +.. WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +.. See the License for the specific language governing permissions and +.. limitations under the License. + + +Signature keys and user identity in libolm +========================================== + +The use of any public-key based cryptography system such as Olm presents the +need for our users Alice and Bob to verify that they are in fact communicating +with each other, rather than a man-in-the-middle. Typically this requires an +out-of-band process in which Alice and Bob verify that they have the correct +public keys for each other. For example, this might be done via physical +presence or via a voice call. + +In the basic `Olm <olm.html>`_ protocol, it is sufficient to compare the public +Curve25519 identity keys. As a naive example, Alice would meet Bob and ensure +that the identity key she downloaded from the key server matched that shown by +his device. This prevents the eavesdropper Eve from decrypting any messages +sent from Alice to Bob, or from masquerading as Bob to send messages to Alice: +she has neither Alice's nor Bob's private identity key, so cannot successfully +complete the triple-DH calculation to compute the shared secret, :math:`S`, +which in turn prevents her decrypting intercepted messages, or from creating +new messages with valid MACs. Obviously, for protection to be complete, Bob +must similarly verify Alice's key. + +However, the use of the Curve25519 key as the "fingerprint" in this way makes +it difficult to carry out signing operations. For instance, it may be useful to +cross-sign identity keys for different devices, or, as discussed below, to sign +one-time keys. Curve25519 keys are intended for use in DH calculations, and +their use to calculate signatures is non-trivial. + +The solution adopted in this library is to generate a signing key for each +user. This is an `Ed25519`_ keypair, which is used to calculate a signature on +an object including both the public Ed25519 signing key and the public +Curve25519 identity key. It is then the **public Ed25519 signing key** which is +used as the device fingerprint which Alice and Bob verify with each other. + +By verifying the signatures on the key object, Alice and Bob then get the same +level of assurance about the ownership of the Curve25519 identity keys as if +they had compared those directly. + +Signing one-time keys +--------------------- + +The Olm protocol requires users to publish a set of one-time keys to a key +server. To establish an Olm session, the originator downloads a key for the +recipient from this server. The decision of whether to sign these one-time keys +is left to the application. There are both advantages and disadvantages to +doing so. + +Consider the scenario where one-time keys are unsigned. Alice wants to initiate +an Olm session with Bob. Bob uploads his one-time keys, :math:`E_B`, but Eve +replaces them with ones she controls, :math:`E_E`. Alice downloads one of the +compromised keys, and sends a pre-key message using a shared secret :math:`S`, +where: + +.. math:: + S = ECDH\left(I_A,\,E_E\right)\;\parallel\;ECDH\left(E_A,\,I_B\right)\; + \parallel\;ECDH\left(E_A,\,E_E\right) + +Eve cannot decrypt the message because she does not have the private parts of +either :math:`E_A` nor :math:`I_B`, so cannot calculate +:math:`ECDH\left(E_A,\,I_B\right)`. However, suppose she later compromises +Bob's identity key :math:`I_B`. This would give her the ability to decrypt any +pre-key messages sent to Bob using the compromised one-time keys, and is thus a +problematic loss of forward secrecy. If Bob signs his keys with his Ed25519 +signing key (and Alice verifies the signature before using them), this problem +is avoided. + +On the other hand, signing the one-time keys leads to a reduction in +deniability. Recall that the shared secret is calculated as follows: + +.. math:: + S = ECDH\left(I_A,\,E_B\right)\;\parallel\;ECDH\left(E_A,\,I_B\right)\; + \parallel\;ECDH\left(E_A,\,E_B\right) + +If keys are unsigned, a forger can make up values of :math:`E_A` and +:math:`E_B`, and construct a transcript of a conversation which looks like it +was between Alice and Bob. Alice and Bob can therefore plausibly deny their +partition in any conversation even if they are both forced to divulge their +private identity keys, since it is impossible to prove that the transcript was +a conversation between the two of them, rather than constructed by a forger. + +If :math:`E_B` is signed, it is no longer possible to construct arbitrary +transcripts. Given a transcript and Alice and Bob's identity keys, we can now +show that at least one of Alice or Bob was involved in the conversation, +because the ability to calculate :math:`ECDH\left(I_A,\,E_B\right)` requires +knowledge of the private parts of either :math:`I_A` (proving Alice's +involvement) or :math:`E_B` (proving Bob's involvement, via the +signature). Note that it remains impossible to show that *both* Alice and Bob +were involved. + +In conclusion, applications should consider whether to sign one-time keys based +on the trade-off between forward secrecy and deniability. + +License +------- + +This document is licensed under the `Apache License, Version 2.0 +<http://www.apache.org/licenses/LICENSE-2.0>`_. + +Feedback +-------- + +Questions and feedback can be sent to richard at matrix.org. + +.. _`Ed25519`: http://ed25519.cr.yp.to/ |