Prevent the homeserver from inserting malicious secrets

Correctly verify that the reply to a secrets request is actually coming
from a verified device. While we did verify that it was us who replied,
we didn't properly cancel storing the secret if the sending device was
one of ours but was maliciously inserted by the homeserver and
unverified. We only send secret requests to verified devices in the
first place, so only the homeserver could abuse this issue.

Additionally we protected against malicious secret poisoning by
verifying that the secret is actually the reply to a request. This means
the server only has 2 places where it can poison the secrets:

- After a verification when we automatically request the secrets
- When the user manually hits the request button

It also needs to prevent other secret answers to reach the client first
since we ignore all replies after that one.

The impact of this might be quite severe. It could allow the server to
replace the cross-signing keys silently and while we might not trust
that key, we possibly could trust it in the future if we rely on the
stored secret. Similarly this could potentially be abused to make the
client trust a malicious online key backup.

If your deployment is not patched yet and you don't control your
homeserver, you can protect against this by simply not doing any
verifications of your own devices and not pressing the request button in
the settings menu.
This commit is contained in:
Nicolas Werner 2022-09-28 13:36:52 +02:00
parent 9010acd909
commit 67bee15a38
No known key found for this signature in database
GPG key ID: C8D75E610773F2D9

View file

@ -342,10 +342,13 @@ handle_olm_message(const OlmMessage &msg, const UserKeyCache &otherUserDeviceKey
if (msg.sender != local_user.to_string()) if (msg.sender != local_user.to_string())
return; return;
auto secret_name = request_id_to_secret_name.find(e->content.request_id); auto secret_name_it = request_id_to_secret_name.find(e->content.request_id);
if (secret_name != request_id_to_secret_name.end()) { if (secret_name_it != request_id_to_secret_name.end()) {
nhlog::crypto()->info("Received secret: {}", secret_name->second); auto secret_name = secret_name_it->second;
request_id_to_secret_name.erase(secret_name_it);
nhlog::crypto()->info("Received secret: {}", secret_name);
mtx::events::msg::SecretRequest secretRequest{}; mtx::events::msg::SecretRequest secretRequest{};
secretRequest.action = mtx::events::msg::RequestAction::Cancellation; secretRequest.action = mtx::events::msg::RequestAction::Cancellation;
@ -358,15 +361,24 @@ handle_olm_message(const OlmMessage &msg, const UserKeyCache &otherUserDeviceKey
return; return;
auto deviceKeys = cache::userKeys(local_user.to_string()); auto deviceKeys = cache::userKeys(local_user.to_string());
if (!deviceKeys)
return;
std::string sender_device_id; std::string sender_device_id;
if (deviceKeys) { for (auto &[dev, key] : deviceKeys->device_keys) {
for (auto &[dev, key] : deviceKeys->device_keys) { if (key.keys["curve25519:" + dev] == msg.sender_key) {
if (key.keys["curve25519:" + dev] == msg.sender_key) { sender_device_id = dev;
sender_device_id = dev; break;
break;
}
} }
} }
if (!verificationStatus->verified_devices.count(sender_device_id) ||
!verificationStatus->verified_device_keys.count(msg.sender_key) ||
verificationStatus->verified_device_keys.at(msg.sender_key) !=
crypto::Trust::Verified) {
nhlog::net()->critical(
"Received secret from unverified device {}! Ignoring!", sender_device_id);
return;
}
std::map<mtx::identifiers::User, std::map<mtx::identifiers::User,
std::map<std::string, mtx::events::msg::SecretRequest>> std::map<std::string, mtx::events::msg::SecretRequest>>
@ -380,19 +392,17 @@ handle_olm_message(const OlmMessage &msg, const UserKeyCache &otherUserDeviceKey
http::client()->send_to_device<mtx::events::msg::SecretRequest>( http::client()->send_to_device<mtx::events::msg::SecretRequest>(
http::client()->generate_txn_id(), http::client()->generate_txn_id(),
body, body,
[name = secret_name->second](mtx::http::RequestErr err) { [secret_name](mtx::http::RequestErr err) {
if (err) { if (err) {
nhlog::net()->error("Failed to send request cancellation " nhlog::net()->error("Failed to send request cancellation "
"for secrect " "for secrect "
"'{}'", "'{}'",
name); secret_name);
} }
}); });
nhlog::crypto()->info("Storing secret {}", secret_name->second); nhlog::crypto()->info("Storing secret {}", secret_name);
cache::client()->storeSecret(secret_name->second, e->content.secret); cache::client()->storeSecret(secret_name, e->content.secret);
request_id_to_secret_name.erase(secret_name);
} }
} else if (auto sec_req = std::get_if<DeviceEvent<msg::SecretRequest>>(&device_event)) { } else if (auto sec_req = std::get_if<DeviceEvent<msg::SecretRequest>>(&device_event)) {