This MSC proposes removing the current requirement of the identity server to send third-party request tokens, and allows homeservers to implement the functionality instead. These request tokens are used to verify the identity of the request author as an owner of the third-party ID (3PID). This can be used for binding a 3PID to an account, or for resetting passwords via email or SMS. The latter is what this proposal mainly focuses on, but be aware that it allows for any task that requires requesting a token for a 3PID to be taken on by the homeserver instead of the identity server.
The intention is to put less trust in the identity server, which is currently one of the most centralised components of Matrix. As it stands, an attacker in control of a identity server can reset a user's password if the identity server is considered trusted by that homeserver, and the user has registered at least one 3PID. This is due to the identity server handling the job of confirming the user's control of that identity.
The MSC seeks to clarify that homeservers can take on the responsibility of sending password reset tokens themselves, and a new response field that will aid homeservers in doing so.
Currently when a client requests a 3PID token, it makes a call to one of the
/requestToken
endpoints on the homeserver. For instance, during password
resets, a token is requested from either
/_matrix/client/r0/account/password/email/requestToken
or
/_matrix/client/r0/account/password/msisdn/requestToken,
depending on the medium of the 3PID. These requests are supplied all the
necessary details as well as an id_server
field containing the domain address
of a identity server trusted by the homeserver.
In order to facilitate these requests, the homeserver will simply proxy them to the identity server. The IS will send out a token via email or sms, the user will click a link or enter the token into their client, and either the client or the user's browser will make a request directly to the identity server with the token for verification. The IS then informs the homeserver that verification was successful. At this point you can likely see that there is potential for abuse here, so instead Homeservers should be given the option to stop proxying the request to the identity server, and instead just send and validate the token themselves.
The homeserver should be allowed to either proxy /requestToken
requests or
handle them itself. Specifically, this means that the homeserver can both send
password reset tokens (via email or SMS), as well as accept requests on an
arbitrary endpoint (with the same parameters as
/_matrix/identity/api/v1/validate/email/submitToken)
to verify that token.
One additional complication that in the case of SMS, just a code is sent to a person's phone. This is then given to the client, but the client may not know where to send the code now, as it doesn't know whether the homeserver or identity server generated it.
In order to combat this problem, the field submit_url
MUST be added in the
response from all of the variants of /requestToken
in the Client-Server API,
if and only if the verification message contains a code the user is expected to
enter into the client (for instance in the case of a short code through SMS).
This URL is simply where the client should submit this token. The endpoint
should accept the same parameters as
/_matrix/identity/api/v1/validate/{3pid_type}/submitToken
in the Identity Service API. The only recommendation to homeserver developers
for this endpoint's path is to not be exactly the same as that of the identity
server, in order to prevent clashes between setups running both an identity
server and homeserver on the same domain. If submit_url
is omitted, the
client MUST continue the same behaviour from before, which is to send the token
to the identity server directly. This is intended for backwards compatibility
with older servers.
If the client receives a response to /requestToken
with submit_url
, it MUST
accept a token from user input, then make a POST request to the content of
submit_url
with the sid
, client_secret
and user-entered token.
submit_url
can lead to anywhere the homeserver deems necessary for
verification. To be clear the content of id_server
does not matter here, the
client should just submit a POST request to the value of submit_url
. Additionally
data MUST be submitted as a JSON body.
An example exchange from the client's perspective is shown below:
POST https://homeserver.tld/_matrix/client/r0/account/password/email/requestToken
{
"client_secret": "monkeys_are_AWESOME",
"email": "[email protected]",
"send_attempt": 1,
"id_server": "id.example.com"
}
If the server responds with a submit_url
field, it means the client should
collect a token from the user and then submit it to the provided URL.
{
"sid": "123abc",
"submit_url": "https://homeserver.tld/_homeserver/password_reset/msisdn/submitToken"
}
Since a submit_url
was provided, the client will now collect a token from the
user, say "123456", and then submit that as a POST request to the
"submit_url"
.
POST https://homeserver.tld/_homeserver/password_reset/msisdn/submitToken
{
"sid": "123abc",
"client_secret": "monkeys_are_AWESOME",
"token": "123456"
}
The client will then receive an appropriate response:
{
"success": true
}
If the client did not receive a submit_url
field, they should instead assume
that verification will be completed out of band (e.g. the user clicks a link in
their email and makes the submitToken request with their web browser).
Consideration was taken not to make id_server
an optional field. Let's
assume for a moment that it was optional. Now, a client could send a request to
/requestToken
omitting the id_server
field. The homeserver however has
opted to continue proxying /requestToken
to the identity server, even though
it knows this is potentially insecure. The homeserver now has no idea which
identity server to proxy the request to, and must return a failure to the
client. The client could then make another request with an id_server
, but
we've now made two requests that ended up in the same outcome, instead of one,
in hopes of saving a very small amount of bandwidth by omitting the field
originally.
At some point we should look into removing the id_server
field altogether and
removing any email/SMS message sending from the identity server. This would
drastically reduce the amount of trust needed in the identity server and its
required ability. This is, however, a good first step.
If homeservers choose to not proxy the request, they will need to implement the ability to send emails and/or SMS messages. This is left as a detail for the homeserver implementation.