// Copyright 2020 The Matrix.org Foundation C.I.C. // // 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. // TODO // // Incoming key requests: // First handle the easy case, if we trust the device and have a session, queue // up a to-device request. // // If we don't have a session, queue up a key claim request, once we get a // session send out the key if we trust the device. // // If we don't trust the device store an object that remembers the request and // let the users introspect that object. #![allow(dead_code)] use dashmap::DashMap; use serde::{Deserialize, Serialize}; use serde_json::{value::to_raw_value, Value}; use std::{collections::BTreeMap, convert::TryInto, ops::Deref, sync::Arc}; use thiserror::Error; use tracing::{info, instrument, trace, warn}; use matrix_sdk_common::{ api::r0::to_device::DeviceIdOrAllDevices, events::{ forwarded_room_key::ForwardedRoomKeyEventContent, room::encrypted::EncryptedEventContent, room_key_request::{Action, RequestedKeyInfo, RoomKeyRequestEventContent}, AnyToDeviceEvent, EventType, ToDeviceEvent, }, identifiers::{DeviceIdBox, EventEncryptionAlgorithm, RoomId, UserId}, uuid::Uuid, Raw, }; use crate::{ error::OlmResult, identities::{OwnUserIdentity, ReadOnlyDevice, UserIdentities}, olm::{InboundGroupSession, OutboundGroupSession}, requests::{OutgoingRequest, ToDeviceRequest}, store::{CryptoStoreError, Store}, }; struct Device { inner: ReadOnlyDevice, store: Store, own_identity: Option, device_owner_identity: Option, } impl Device { fn trust_state(&self) -> bool { self.inner .trust_state(&self.own_identity, &self.device_owner_identity) } pub(crate) async fn encrypt( &self, event_type: EventType, content: Value, ) -> OlmResult { self.inner .encrypt(self.store.clone(), event_type, content) .await } } impl Deref for Device { type Target = ReadOnlyDevice; fn deref(&self) -> &Self::Target { &self.inner } } /// An error describing why a key share request won't be honored. #[derive(Debug, Clone, Error, PartialEq)] pub enum KeyshareDecision { /// The key request is from a device that we don't own, we're only sharing /// sessions that we know the requesting device already was supposed to get. #[error("can't find an active outbound group session")] MissingOutboundSession, /// The key request is from a device that we don't own and the device wasn't /// meant to receive the session in the original key share. #[error("outbound session wasn't shared with the requesting device")] OutboundSessionNotShared, /// The key request is from a device we own, yet we don't trust it. #[error("requesting device isn't trusted")] UntrustedDevice, } #[derive(Debug, Clone)] pub(crate) struct KeyRequestMachine { user_id: Arc, device_id: Arc, store: Store, outgoing_to_device_requests: Arc>, incoming_key_requests: Arc>>, } #[derive(Debug, Serialize, Deserialize)] struct OugoingKeyInfo { request_id: Uuid, info: RequestedKeyInfo, sent_out: bool, } trait Encode { fn encode(&self) -> String; } impl Encode for RequestedKeyInfo { fn encode(&self) -> String { format!( "{}|{}|{}|{}", self.sender_key, self.room_id, self.session_id, self.algorithm ) } } impl Encode for ForwardedRoomKeyEventContent { fn encode(&self) -> String { format!( "{}|{}|{}|{}", self.sender_key, self.room_id, self.session_id, self.algorithm ) } } fn wrap_key_request_content( recipient: UserId, id: Uuid, content: &RoomKeyRequestEventContent, ) -> Result { let mut messages = BTreeMap::new(); messages .entry(recipient) .or_insert_with(BTreeMap::new) .insert(DeviceIdOrAllDevices::AllDevices, to_raw_value(content)?); Ok(OutgoingRequest { request_id: id, request: Arc::new( ToDeviceRequest { event_type: EventType::RoomKeyRequest, txn_id: id, messages, } .into(), ), }) } impl KeyRequestMachine { pub fn new(user_id: Arc, device_id: Arc, store: Store) -> Self { Self { user_id, device_id, store, outgoing_to_device_requests: Arc::new(DashMap::new()), incoming_key_requests: Arc::new(DashMap::new()), } } /// Our own user id. pub fn user_id(&self) -> &UserId { &self.user_id } pub fn outgoing_to_device_requests(&self) -> Vec { #[allow(clippy::map_clone)] self.outgoing_to_device_requests .iter() .map(|r| (*r).clone()) .collect() } /// Receive a room key request event. pub fn receive_incoming_key_request(&self, event: &ToDeviceEvent) { let sender = event.sender.clone(); let device_id = event.content.requesting_device_id.clone(); let request_id = event.content.request_id.clone(); self.incoming_key_requests .insert((sender, device_id, request_id), event.clone()); } /// Handle all the incoming key requests that are queued up and empty our /// key request queue. pub async fn collect_incoming_key_requests(&self) -> Result<(), CryptoStoreError> { for item in self.incoming_key_requests.iter() { let event = item.value(); self.handle_key_request(event).await?; } self.incoming_key_requests.clear(); Ok(()) } /// Handle a single incoming key request. #[instrument] async fn handle_key_request( &self, event: &ToDeviceEvent, ) -> Result<(), CryptoStoreError> { let key_info = match event.content.action { Action::Request => { if let Some(info) = &event.content.body { info } else { warn!( "Received a key request from {} {} with a request \ action, but no key info was found", event.sender, event.content.requesting_device_id ); return Ok(()); } } // We ignore cancellations here since there's nothing to serve. Action::CancelRequest => return Ok(()), }; let session = self .store .get_inbound_group_session( &key_info.room_id, &key_info.sender_key, &key_info.session_id, ) .await?; let session = if let Some(s) = session { s } else { info!( "Received a key request from {} {} for an unknown inbound group session {}.", &event.sender, &event.content.requesting_device_id, &key_info.session_id ); return Ok(()); }; let device = self .store .get_device_and_users(&event.sender, &event.content.requesting_device_id) .await? .map(|(d, o, u)| Device { inner: d, store: self.store.clone(), own_identity: o, device_owner_identity: u, }); if let Some(device) = device { // TODO get the matching outbound session. if let Err(e) = self.should_share_session(&device, None) { info!( "Received a key request from {} {} that we won't serve: {}", device.user_id(), device.device_id(), e ); } else { info!( "Serving a key request for {} from {} {}.", key_info.session_id, device.user_id(), device.device_id() ); self.share_session(session, device).await; } } else { warn!( "Received a key request from an unknown device {} {}.", &event.sender, &event.content.requesting_device_id ); self.store.update_tracked_user(&event.sender, true).await?; } Ok(()) } async fn share_session(&self, session: InboundGroupSession, device: Device) { let export = session.export().await; let content: ForwardedRoomKeyEventContent = export.try_into().unwrap(); let content = serde_json::to_value(content).unwrap(); let content = device .encrypt(EventType::ForwardedRoomKey, content) .await .unwrap(); let id = Uuid::new_v4(); let mut messages = BTreeMap::new(); messages .entry(device.user_id().to_owned()) .or_insert_with(BTreeMap::new) .insert( DeviceIdOrAllDevices::DeviceId(device.device_id().into()), to_raw_value(&content).unwrap(), ); let request = OutgoingRequest { request_id: id, request: Arc::new( ToDeviceRequest { event_type: EventType::RoomKeyRequest, txn_id: id, messages, } .into(), ), }; self.outgoing_to_device_requests.insert(id, request); } /// Check if it's ok to share a session with the given device. /// /// The logic for this currently is as follows: /// /// * Share any session with our own devices as long as they are trusted. /// /// * Share with devices of other users only sessions that were meant to be /// shared with them in the first place, in other words if an outbound /// session still exists and the session was shared with that user/device /// pair. /// /// # Arguments /// /// * `device` - The device that is requesting a session from us. /// /// * `outbound_session` - If one still exists, the matching outbound /// session that was used to create the inbound session that is being /// requested. fn should_share_session( &self, device: &Device, outbound_session: Option<&OutboundGroupSession>, ) -> Result<(), KeyshareDecision> { if device.user_id() == self.user_id() { if device.trust_state() { Ok(()) } else { Err(KeyshareDecision::UntrustedDevice) } } else if let Some(outbound) = outbound_session { if outbound .shared_with() .contains(&(device.user_id().to_owned(), device.device_id().to_owned())) { Ok(()) } else { Err(KeyshareDecision::OutboundSessionNotShared) } } else { Err(KeyshareDecision::MissingOutboundSession) } } /// Create a new outgoing key request for the key with the given session id. /// /// This will queue up a new to-device request and store the key info so /// once we receive a forwarded room key we can check that it matches the /// key we requested. /// /// This does nothing if a request for this key has already been sent out. /// /// # Arguments /// * `room_id` - The id of the room where the key is used in. /// /// * `sender_key` - The curve25519 key of the sender that owns the key. /// /// * `session_id` - The id that uniquely identifies the session. pub async fn create_outgoing_key_request( &self, room_id: &RoomId, sender_key: &str, session_id: &str, ) -> Result<(), CryptoStoreError> { let key_info = RequestedKeyInfo { algorithm: EventEncryptionAlgorithm::MegolmV1AesSha2, room_id: room_id.to_owned(), sender_key: sender_key.to_owned(), session_id: session_id.to_owned(), }; let id: Option = self.store.get_object(&key_info.encode()).await?; if id.is_some() { // We already sent out a request for this key, nothing to do. return Ok(()); } info!("Creating new outgoing room key request {:#?}", key_info); let id = Uuid::new_v4(); let content = RoomKeyRequestEventContent { action: Action::Request, request_id: id.to_string(), requesting_device_id: (&*self.device_id).clone(), body: Some(key_info), }; let request = wrap_key_request_content(self.user_id().clone(), id, &content)?; let info = OugoingKeyInfo { request_id: id, info: content.body.unwrap(), sent_out: false, }; self.save_outgoing_key_info(id, info).await?; self.outgoing_to_device_requests.insert(id, request); Ok(()) } /// Save an outgoing key info. async fn save_outgoing_key_info( &self, id: Uuid, info: OugoingKeyInfo, ) -> Result<(), CryptoStoreError> { // TODO we'll want to use a transaction to store those atomically. // To allow this we'll need to rework our cryptostore trait to return // a transaction trait and the transaction trait will have the save_X // methods. let id_string = id.to_string(); self.store.save_object(&id_string, &info).await?; self.store.save_object(&info.info.encode(), &id).await?; Ok(()) } /// Get an outgoing key info that matches the forwarded room key content. async fn get_key_info( &self, content: &ForwardedRoomKeyEventContent, ) -> Result, CryptoStoreError> { let id: Option = self.store.get_object(&content.encode()).await?; if let Some(id) = id { self.store.get_object(&id.to_string()).await } else { Ok(None) } } /// Delete the given outgoing key info. async fn delete_key_info(&self, info: &OugoingKeyInfo) -> Result<(), CryptoStoreError> { self.store .delete_object(&info.request_id.to_string()) .await?; self.store.delete_object(&info.info.encode()).await?; Ok(()) } /// Mark the outgoing request as sent. pub async fn mark_outgoing_request_as_sent(&self, id: &Uuid) -> Result<(), CryptoStoreError> { self.outgoing_to_device_requests.remove(id); let info: Option = self.store.get_object(&id.to_string()).await?; if let Some(mut info) = info { trace!("Marking outgoing key request as sent {:#?}", info); info.sent_out = true; self.save_outgoing_key_info(*id, info).await?; } Ok(()) } /// Save an inbound group session we received using a key forward. /// /// At the same time delete the key info since we received the wanted key. async fn save_session( &self, key_info: OugoingKeyInfo, session: InboundGroupSession, ) -> Result<(), CryptoStoreError> { // TODO perhaps only remove the key info if the first known index is 0. trace!( "Successfully received a forwarded room key for {:#?}", key_info ); self.store.save_inbound_group_sessions(&[session]).await?; self.outgoing_to_device_requests .remove(&key_info.request_id); self.delete_key_info(&key_info).await?; let content = RoomKeyRequestEventContent { action: Action::CancelRequest, request_id: key_info.request_id.to_string(), requesting_device_id: (&*self.device_id).clone(), body: None, }; let id = Uuid::new_v4(); let request = wrap_key_request_content(self.user_id().clone(), id, &content)?; self.outgoing_to_device_requests.insert(id, request); Ok(()) } /// Receive a forwarded room key event. pub async fn receive_forwarded_room_key( &self, sender_key: &str, event: &mut ToDeviceEvent, ) -> Result>, CryptoStoreError> { let key_info = self.get_key_info(&event.content).await?; if let Some(info) = key_info { let session = InboundGroupSession::from_forwarded_key(sender_key, &mut event.content)?; let old_session = self .store .get_inbound_group_session( session.room_id(), &session.sender_key, session.session_id(), ) .await?; // If we have a previous session, check if we have a better version // and store the new one if so. if let Some(old_session) = old_session { let first_old_index = old_session.first_known_index().await; let first_index = session.first_known_index().await; if first_old_index > first_index { self.save_session(info, session).await?; } // If we didn't have a previous session, store it. } else { self.save_session(info, session).await?; } Ok(Some(Raw::from(AnyToDeviceEvent::ForwardedRoomKey( event.clone(), )))) } else { info!( "Received a forwarded room key from {}, but no key info was found.", event.sender, ); Ok(None) } } } #[cfg(test)] mod test { use matrix_sdk_common::{ events::{forwarded_room_key::ForwardedRoomKeyEventContent, ToDeviceEvent}, identifiers::{room_id, user_id, DeviceIdBox, RoomId, UserId}, }; use matrix_sdk_test::async_test; use std::{convert::TryInto, sync::Arc}; use crate::{ identities::{LocalTrust, ReadOnlyDevice}, olm::Account, store::{MemoryStore, Store}, }; use super::{Device, KeyRequestMachine, KeyshareDecision}; fn alice_id() -> UserId { user_id!("@alice:example.org") } fn alice_device_id() -> DeviceIdBox { "JLAFKJWSCS".into() } fn bob_id() -> UserId { user_id!("@bob:example.org") } fn bob_device_id() -> DeviceIdBox { "ILMLKASTES".into() } fn room_id() -> RoomId { room_id!("!test:example.org") } fn account() -> Account { Account::new(&alice_id(), &alice_device_id()) } fn bob_account() -> Account { Account::new(&bob_id(), &bob_device_id()) } fn get_machine() -> KeyRequestMachine { let user_id = Arc::new(alice_id()); let store = Store::new(user_id.clone(), Box::new(MemoryStore::new())); KeyRequestMachine::new(user_id, Arc::new(alice_device_id()), store) } #[test] fn create_machine() { let machine = get_machine(); assert!(machine.outgoing_to_device_requests().is_empty()); } #[async_test] async fn create_key_request() { let machine = get_machine(); let account = account(); let (_, session) = account .create_group_session_pair_with_defaults(&room_id()) .await .unwrap(); assert!(machine.outgoing_to_device_requests().is_empty()); machine .create_outgoing_key_request( session.room_id(), &session.sender_key, session.session_id(), ) .await .unwrap(); assert!(!machine.outgoing_to_device_requests().is_empty()); assert_eq!(machine.outgoing_to_device_requests().len(), 1); machine .create_outgoing_key_request( session.room_id(), &session.sender_key, session.session_id(), ) .await .unwrap(); assert_eq!(machine.outgoing_to_device_requests.len(), 1); let request = machine.outgoing_to_device_requests.iter().next().unwrap(); let id = request.request_id; drop(request); machine.mark_outgoing_request_as_sent(&id).await.unwrap(); assert!(machine.outgoing_to_device_requests.is_empty()); } #[async_test] async fn receive_forwarded_key() { let machine = get_machine(); let account = account(); let (_, session) = account .create_group_session_pair_with_defaults(&room_id()) .await .unwrap(); machine .create_outgoing_key_request( session.room_id(), &session.sender_key, session.session_id(), ) .await .unwrap(); let request = machine.outgoing_to_device_requests.iter().next().unwrap(); let id = request.request_id; drop(request); machine.mark_outgoing_request_as_sent(&id).await.unwrap(); let export = session.export_at_index(10).await.unwrap(); let content: ForwardedRoomKeyEventContent = export.try_into().unwrap(); let mut event = ToDeviceEvent { sender: alice_id(), content, }; assert!( machine .store .get_inbound_group_session( session.room_id(), &session.sender_key, session.session_id(), ) .await .unwrap() .is_none() ); machine .receive_forwarded_room_key(&session.sender_key, &mut event) .await .unwrap(); let first_session = machine .store .get_inbound_group_session(session.room_id(), &session.sender_key, session.session_id()) .await .unwrap() .unwrap(); assert_eq!(first_session.first_known_index().await, 10); // Get the cancel request. let request = machine.outgoing_to_device_requests.iter().next().unwrap(); let id = request.request_id; drop(request); machine.mark_outgoing_request_as_sent(&id).await.unwrap(); machine .create_outgoing_key_request( session.room_id(), &session.sender_key, session.session_id(), ) .await .unwrap(); let request = machine.outgoing_to_device_requests.iter().next().unwrap(); let id = request.request_id; drop(request); machine.mark_outgoing_request_as_sent(&id).await.unwrap(); let export = session.export_at_index(15).await.unwrap(); let content: ForwardedRoomKeyEventContent = export.try_into().unwrap(); let mut event = ToDeviceEvent { sender: alice_id(), content, }; machine .receive_forwarded_room_key(&session.sender_key, &mut event) .await .unwrap(); let second_session = machine .store .get_inbound_group_session(session.room_id(), &session.sender_key, session.session_id()) .await .unwrap() .unwrap(); assert_eq!(second_session.first_known_index().await, 10); let export = session.export_at_index(0).await.unwrap(); let content: ForwardedRoomKeyEventContent = export.try_into().unwrap(); let mut event = ToDeviceEvent { sender: alice_id(), content, }; machine .receive_forwarded_room_key(&session.sender_key, &mut event) .await .unwrap(); let second_session = machine .store .get_inbound_group_session(session.room_id(), &session.sender_key, session.session_id()) .await .unwrap() .unwrap(); assert_eq!(second_session.first_known_index().await, 0); } #[async_test] async fn should_share_key_test() { let machine = get_machine(); let account = account(); let own_device = Device { store: machine.store.clone(), inner: ReadOnlyDevice::from_account(&account).await, own_identity: None, device_owner_identity: None, }; // We don't share keys with untrusted devices. assert_eq!( machine .should_share_session(&own_device, None) .expect_err("Should not share with untrusted"), KeyshareDecision::UntrustedDevice ); own_device.set_trust_state(LocalTrust::Verified); // Now we do want to share the keys. assert!(machine.should_share_session(&own_device, None).is_ok()); let bob_device = Device { store: machine.store.clone(), inner: ReadOnlyDevice::from_account(&bob_account()).await, own_identity: None, device_owner_identity: None, }; // We don't share sessions with other user's devices if no outbound // session was provided. assert_eq!( machine .should_share_session(&bob_device, None) .expect_err("Should not share with other."), KeyshareDecision::MissingOutboundSession ); let (session, _) = account .create_group_session_pair_with_defaults(&room_id()) .await .unwrap(); // We don't share sessions with other user's devices if the session // wasn't shared in the first place. assert_eq!( machine .should_share_session(&bob_device, Some(&session)) .expect_err("Should not share with other unless shared."), KeyshareDecision::OutboundSessionNotShared ); bob_device.set_trust_state(LocalTrust::Verified); // We don't share sessions with other user's devices if the session // wasn't shared in the first place even if the device is trusted. assert_eq!( machine .should_share_session(&bob_device, Some(&session)) .expect_err("Should not share with other unless shared."), KeyshareDecision::OutboundSessionNotShared ); session.mark_shared_with(bob_device.user_id(), bob_device.device_id()); assert!(machine .should_share_session(&bob_device, Some(&session)) .is_ok()); } }