// 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. use std::{ convert::TryFrom, mem, sync::{Arc, Mutex}, time::{Duration, Instant}, }; use olm_rs::{sas::OlmSas, utility::OlmUtility}; use matrix_sdk_common::{ events::{ key::verification::{ accept::{ AcceptEventContent, AcceptMethod, MSasV1Content as AcceptV1Content, MSasV1ContentInit as AcceptV1ContentInit, }, cancel::{CancelCode, CancelEventContent}, key::KeyEventContent, mac::MacEventContent, start::{MSasV1Content, MSasV1ContentInit, StartEventContent, StartMethod}, HashAlgorithm, KeyAgreementProtocol, MessageAuthenticationCode, ShortAuthenticationString, VerificationMethod, }, AnyToDeviceEventContent, ToDeviceEvent, }, identifiers::{DeviceId, UserId}, uuid::Uuid, }; use super::helpers::{get_decimal, get_emoji, get_mac_content, receive_mac_event, SasIds}; use crate::{Account, Device}; const KEY_AGREEMENT_PROTOCOLS: &[KeyAgreementProtocol] = &[KeyAgreementProtocol::Curve25519HkdfSha256]; const HASHES: &[HashAlgorithm] = &[HashAlgorithm::Sha256]; const MACS: &[MessageAuthenticationCode] = &[MessageAuthenticationCode::HkdfHmacSha256]; const STRINGS: &[ShortAuthenticationString] = &[ ShortAuthenticationString::Decimal, ShortAuthenticationString::Emoji, ]; // The max time a SAS flow can take from start to done. const MAX_AGE: Duration = Duration::from_secs(60 * 5); // The max time a SAS object will wait for a new event to arrive. const MAX_EVENT_TIMEOUT: Duration = Duration::from_secs(60); /// Struct containing the protocols that were agreed to be used for the SAS /// flow. #[derive(Clone, Debug)] struct AcceptedProtocols { method: VerificationMethod, key_agreement_protocol: KeyAgreementProtocol, hash: HashAlgorithm, message_auth_code: MessageAuthenticationCode, short_auth_string: Vec, } impl TryFrom for AcceptedProtocols { type Error = CancelCode; fn try_from(content: AcceptV1Content) -> Result { if !KEY_AGREEMENT_PROTOCOLS.contains(&content.key_agreement_protocol) || !HASHES.contains(&content.hash) || !MACS.contains(&content.message_authentication_code) || (!content .short_authentication_string .contains(&ShortAuthenticationString::Emoji) && !content .short_authentication_string .contains(&ShortAuthenticationString::Decimal)) { Err(CancelCode::UnknownMethod) } else { Ok(Self { method: VerificationMethod::MSasV1, hash: content.hash, key_agreement_protocol: content.key_agreement_protocol, message_auth_code: content.message_authentication_code, short_auth_string: content.short_authentication_string, }) } } } #[cfg(not(tarpaulin_include))] impl Default for AcceptedProtocols { fn default() -> Self { AcceptedProtocols { method: VerificationMethod::MSasV1, hash: HashAlgorithm::Sha256, key_agreement_protocol: KeyAgreementProtocol::Curve25519HkdfSha256, message_auth_code: MessageAuthenticationCode::HkdfHmacSha256, short_auth_string: vec![ ShortAuthenticationString::Decimal, ShortAuthenticationString::Emoji, ], } } } // TODO implement expiration of the verification flow using the timeouts defined // in the spec. /// A type level state machine modeling the Sas flow. /// /// This is the generic struc holding common data between the different states /// and the specific state. #[derive(Clone)] pub struct SasState { /// The Olm SAS struct. inner: Arc>, /// Struct holding the identities that are doing the SAS dance. ids: SasIds, /// The instant when the SAS object was created. If this more than /// MAX_AGE seconds are elapsed, the event will be canceled with a /// `CancelCode::Timeout` creation_time: Arc, /// The instant the SAS object last received an event. last_event_time: Arc, /// The unique identifier of this SAS flow. /// /// This will be the transaction id for to-device events and the relates_to /// field for in-room events. pub verification_flow_id: Arc, /// The SAS state we're in. state: Arc, } #[cfg(not(tarpaulin_include))] impl std::fmt::Debug for SasState { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_struct("SasState") .field("ids", &self.ids) .field("flow_id", &self.verification_flow_id) .field("state", &self.state) .finish() } } /// The initial SAS state. #[derive(Clone, Debug)] pub struct Created { protocol_definitions: MSasV1ContentInit, } /// The initial SAS state if the other side started the SAS verification. #[derive(Clone, Debug)] pub struct Started { commitment: String, protocol_definitions: MSasV1Content, } /// The SAS state we're going to be in after the other side accepted our /// verification start event. #[derive(Clone, Debug)] pub struct Accepted { accepted_protocols: Arc, json_start_content: String, commitment: String, } /// The SAS state we're going to be in after we received the public key of the /// other participant. /// /// From now on we can show the short auth string to the user. #[derive(Clone, Debug)] pub struct KeyReceived { their_pubkey: String, we_started: bool, accepted_protocols: Arc, } /// The SAS state we're going to be in after the user has confirmed that the /// short auth string matches. We still need to receive a MAC event from the /// other side. #[derive(Clone, Debug)] pub struct Confirmed { accepted_protocols: Arc, } /// The SAS state we're going to be in after we receive a MAC event from the /// other side. Our own user still needs to confirm that the short auth string /// matches. #[derive(Clone, Debug)] pub struct MacReceived { we_started: bool, their_pubkey: String, verified_devices: Arc>, verified_master_keys: Arc>, } /// The SAS state indicating that the verification finished successfully. /// /// We can now mark the device in our verified devices lits as verified and sign /// the master keys in the verified devices list. #[derive(Clone, Debug)] pub struct Done { verified_devices: Arc>, verified_master_keys: Arc>, } #[derive(Clone, Debug)] pub struct Canceled { cancel_code: CancelCode, reason: &'static str, } impl SasState { /// Get our own user id. pub fn user_id(&self) -> &UserId { &self.ids.account.user_id() } /// Get our own device id. pub fn device_id(&self) -> &DeviceId { &self.ids.account.device_id() } pub fn other_device(&self) -> Device { self.ids.other_device.clone() } pub fn cancel(self, cancel_code: CancelCode) -> SasState { SasState { inner: self.inner, ids: self.ids, creation_time: self.creation_time, last_event_time: self.last_event_time, verification_flow_id: self.verification_flow_id, state: Arc::new(Canceled::new(cancel_code)), } } /// Did our SAS verification time out. pub fn timed_out(&self) -> bool { self.creation_time.elapsed() > MAX_AGE || self.last_event_time.elapsed() > MAX_EVENT_TIMEOUT } #[cfg(test)] pub fn set_creation_time(&mut self, time: Instant) { self.creation_time = Arc::new(time); } fn check_event(&self, sender: &UserId, flow_id: &str) -> Result<(), CancelCode> { if flow_id != *self.verification_flow_id { Err(CancelCode::UnknownTransaction) } else if sender != self.ids.other_device.user_id() { Err(CancelCode::UserMismatch) } else if self.timed_out() { Err(CancelCode::Timeout) } else { Ok(()) } } } impl SasState { /// Create a new SAS verification flow. /// /// # Arguments /// /// * `account` - Our own account. /// /// * `other_device` - The other device which we are going to verify. pub fn new(account: Account, other_device: Device) -> SasState { let verification_flow_id = Uuid::new_v4().to_string(); SasState { inner: Arc::new(Mutex::new(OlmSas::new())), ids: SasIds { account, other_device, }, verification_flow_id: Arc::new(verification_flow_id), creation_time: Arc::new(Instant::now()), last_event_time: Arc::new(Instant::now()), state: Arc::new(Created { protocol_definitions: MSasV1ContentInit { short_authentication_string: STRINGS.to_vec(), key_agreement_protocols: KEY_AGREEMENT_PROTOCOLS.to_vec(), message_authentication_codes: MACS.to_vec(), hashes: HASHES.to_vec(), }, }), } } /// Get the content for the start event. /// /// The content needs to be sent to the other device. pub fn as_content(&self) -> StartEventContent { StartEventContent { transaction_id: self.verification_flow_id.to_string(), from_device: self.device_id().into(), method: StartMethod::MSasV1( MSasV1Content::new(self.state.protocol_definitions.clone()) .expect("Invalid initial protocol definitions."), ), } } /// Receive a m.key.verification.accept event, changing the state into /// an Accepted one. /// /// # Arguments /// /// * `event` - The m.key.verification.accept event that was sent to us by /// the other side. pub fn into_accepted( self, event: &ToDeviceEvent, ) -> Result, SasState> { self.check_event(&event.sender, &event.content.transaction_id) .map_err(|c| self.clone().cancel(c))?; if let AcceptMethod::MSasV1(content) = &event.content.method { let accepted_protocols = AcceptedProtocols::try_from(content.clone()).map_err(|c| self.clone().cancel(c))?; let json_start_content = cjson::to_string(&self.as_content()) .expect("Can't deserialize start event content"); Ok(SasState { inner: self.inner, ids: self.ids, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, state: Arc::new(Accepted { json_start_content, commitment: content.commitment.clone(), accepted_protocols: Arc::new(accepted_protocols), }), }) } else { Err(self.cancel(CancelCode::UnknownMethod)) } } } impl SasState { /// Create a new SAS verification flow from a m.key.verification.start /// event. /// /// This will put us in the `started` state. /// /// # Arguments /// /// * `account` - Our own account. /// /// * `other_device` - The other device which we are going to verify. /// /// * `event` - The m.key.verification.start event that was sent to us by /// the other side. pub fn from_start_event( account: Account, other_device: Device, event: &ToDeviceEvent, ) -> Result, SasState> { if let StartMethod::MSasV1(content) = &event.content.method { let sas = OlmSas::new(); let utility = OlmUtility::new(); let json_content = cjson::to_string(&event.content).expect("Can't serialize content"); let pubkey = sas.public_key(); let commitment = utility.sha256_utf8_msg(&format!("{}{}", pubkey, json_content)); let sas = SasState { inner: Arc::new(Mutex::new(sas)), ids: SasIds { account, other_device, }, creation_time: Arc::new(Instant::now()), last_event_time: Arc::new(Instant::now()), verification_flow_id: Arc::new(event.content.transaction_id.clone()), state: Arc::new(Started { protocol_definitions: content.clone(), commitment, }), }; if !content .key_agreement_protocols .contains(&KeyAgreementProtocol::Curve25519HkdfSha256) || !content .message_authentication_codes .contains(&MessageAuthenticationCode::HkdfHmacSha256) || !content.hashes.contains(&HashAlgorithm::Sha256) || (!content .short_authentication_string .contains(&ShortAuthenticationString::Decimal) && !content .short_authentication_string .contains(&ShortAuthenticationString::Emoji)) { Err(sas.cancel(CancelCode::UnknownMethod)) } else { Ok(sas) } } else { Err(SasState { inner: Arc::new(Mutex::new(OlmSas::new())), creation_time: Arc::new(Instant::now()), last_event_time: Arc::new(Instant::now()), ids: SasIds { account, other_device, }, verification_flow_id: Arc::new(event.content.transaction_id.clone()), state: Arc::new(Canceled::new(CancelCode::UnknownMethod)), }) } } /// Get the content for the accept event. /// /// The content needs to be sent to the other device. /// /// This should be sent out automatically if the SAS verification flow has /// been started because of a /// m.key.verification.request -> m.key.verification.ready flow. pub fn as_content(&self) -> AcceptEventContent { let accepted_protocols = AcceptedProtocols::default(); AcceptEventContent { transaction_id: self.verification_flow_id.to_string(), method: AcceptMethod::MSasV1( AcceptV1ContentInit { commitment: self.state.commitment.clone(), hash: accepted_protocols.hash, key_agreement_protocol: accepted_protocols.key_agreement_protocol, message_authentication_code: accepted_protocols.message_auth_code, short_authentication_string: self .state .protocol_definitions .short_authentication_string .clone(), } .into(), ), } } /// Receive a m.key.verification.key event, changing the state into /// a `KeyReceived` one /// /// # Arguments /// /// * `event` - The m.key.verification.key event that was sent to us by /// the other side. The event will be modified so it doesn't contain any key /// anymore. pub fn into_key_received( self, event: &mut ToDeviceEvent, ) -> Result, SasState> { self.check_event(&event.sender, &event.content.transaction_id) .map_err(|c| self.clone().cancel(c))?; let accepted_protocols = AcceptedProtocols::default(); let their_pubkey = mem::take(&mut event.content.key); self.inner .lock() .unwrap() .set_their_public_key(their_pubkey.clone()) .expect("Can't set public key"); Ok(SasState { inner: self.inner, ids: self.ids, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, state: Arc::new(KeyReceived { we_started: false, their_pubkey, accepted_protocols: Arc::new(accepted_protocols), }), }) } } impl SasState { /// Receive a m.key.verification.key event, changing the state into /// a `KeyReceived` one /// /// # Arguments /// /// * `event` - The m.key.verification.key event that was sent to us by /// the other side. The event will be modified so it doesn't contain any key /// anymore. pub fn into_key_received( self, event: &mut ToDeviceEvent, ) -> Result, SasState> { self.check_event(&event.sender, &event.content.transaction_id) .map_err(|c| self.clone().cancel(c))?; let utility = OlmUtility::new(); let commitment = utility.sha256_utf8_msg(&format!( "{}{}", event.content.key, self.state.json_start_content )); if self.state.commitment != commitment { Err(self.cancel(CancelCode::InvalidMessage)) } else { let their_pubkey = mem::take(&mut event.content.key); self.inner .lock() .unwrap() .set_their_public_key(their_pubkey.clone()) .expect("Can't set public key"); Ok(SasState { inner: self.inner, ids: self.ids, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, state: Arc::new(KeyReceived { their_pubkey, we_started: true, accepted_protocols: self.state.accepted_protocols.clone(), }), }) } } /// Get the content for the key event. /// /// The content needs to be automatically sent to the other side. pub fn as_content(&self) -> KeyEventContent { KeyEventContent { transaction_id: self.verification_flow_id.to_string(), key: self.inner.lock().unwrap().public_key(), } } } impl SasState { /// Get the content for the key event. /// /// The content needs to be automatically sent to the other side if and only /// if we_started is false. pub fn as_content(&self) -> KeyEventContent { KeyEventContent { transaction_id: self.verification_flow_id.to_string(), key: self.inner.lock().unwrap().public_key(), } } /// Get the emoji version of the short authentication string. /// /// Returns a vector of tuples where the first element is the emoji and the /// second element the English description of the emoji. pub fn get_emoji(&self) -> Vec<(&'static str, &'static str)> { get_emoji( &self.inner.lock().unwrap(), &self.ids, &self.state.their_pubkey, &self.verification_flow_id, self.state.we_started, ) } /// Get the decimal version of the short authentication string. /// /// Returns a tuple containing three 4 digit integer numbers that represent /// the short auth string. pub fn get_decimal(&self) -> (u16, u16, u16) { get_decimal( &self.inner.lock().unwrap(), &self.ids, &self.state.their_pubkey, &self.verification_flow_id, self.state.we_started, ) } /// Receive a m.key.verification.mac event, changing the state into /// a `MacReceived` one /// /// # Arguments /// /// * `event` - The m.key.verification.mac event that was sent to us by /// the other side. pub fn into_mac_received( self, event: &ToDeviceEvent, ) -> Result, SasState> { self.check_event(&event.sender, &event.content.transaction_id) .map_err(|c| self.clone().cancel(c))?; let (devices, master_keys) = receive_mac_event( &self.inner.lock().unwrap(), &self.ids, &self.verification_flow_id, event, ) .map_err(|c| self.clone().cancel(c))?; Ok(SasState { inner: self.inner, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, ids: self.ids, state: Arc::new(MacReceived { we_started: self.state.we_started, their_pubkey: self.state.their_pubkey.clone(), verified_devices: Arc::new(devices), verified_master_keys: Arc::new(master_keys), }), }) } /// Confirm that the short auth string matches. /// /// This needs to be done by the user, this will put us in the `Confirmed` /// state. pub fn confirm(self) -> SasState { SasState { inner: self.inner, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, ids: self.ids, state: Arc::new(Confirmed { accepted_protocols: self.state.accepted_protocols.clone(), }), } } } impl SasState { /// Receive a m.key.verification.mac event, changing the state into /// a `Done` one /// /// # Arguments /// /// * `event` - The m.key.verification.mac event that was sent to us by /// the other side. pub fn into_done( self, event: &ToDeviceEvent, ) -> Result, SasState> { self.check_event(&event.sender, &event.content.transaction_id) .map_err(|c| self.clone().cancel(c))?; let (devices, master_keys) = receive_mac_event( &self.inner.lock().unwrap(), &self.ids, &self.verification_flow_id, event, ) .map_err(|c| self.clone().cancel(c))?; Ok(SasState { inner: self.inner, creation_time: self.creation_time, last_event_time: self.last_event_time, verification_flow_id: self.verification_flow_id, ids: self.ids, state: Arc::new(Done { verified_devices: Arc::new(devices), verified_master_keys: Arc::new(master_keys), }), }) } /// Get the content for the mac event. /// /// The content needs to be automatically sent to the other side. pub fn as_content(&self) -> MacEventContent { get_mac_content( &self.inner.lock().unwrap(), &self.ids, &self.verification_flow_id, ) } } impl SasState { /// Confirm that the short auth string matches. /// /// This needs to be done by the user, this will put us in the `Done` /// state since the other side already confirmed and sent us a MAC event. pub fn confirm(self) -> SasState { SasState { inner: self.inner, verification_flow_id: self.verification_flow_id, creation_time: self.creation_time, last_event_time: self.last_event_time, ids: self.ids, state: Arc::new(Done { verified_devices: self.state.verified_devices.clone(), verified_master_keys: self.state.verified_master_keys.clone(), }), } } /// Get the emoji version of the short authentication string. /// /// Returns a vector of tuples where the first element is the emoji and the /// second element the English description of the emoji. pub fn get_emoji(&self) -> Vec<(&'static str, &'static str)> { get_emoji( &self.inner.lock().unwrap(), &self.ids, &self.state.their_pubkey, &self.verification_flow_id, self.state.we_started, ) } /// Get the decimal version of the short authentication string. /// /// Returns a tuple containing three 4 digit integer numbers that represent /// the short auth string. pub fn get_decimal(&self) -> (u16, u16, u16) { get_decimal( &self.inner.lock().unwrap(), &self.ids, &self.state.their_pubkey, &self.verification_flow_id, self.state.we_started, ) } } impl SasState { /// Get the content for the mac event. /// /// The content needs to be automatically sent to the other side if it /// wasn't already sent. pub fn as_content(&self) -> MacEventContent { get_mac_content( &self.inner.lock().unwrap(), &self.ids, &self.verification_flow_id, ) } /// Get the list of verified devices. pub fn verified_devices(&self) -> Arc> { self.state.verified_devices.clone() } /// Get the list of verified master keys. pub fn verified_master_keys(&self) -> Arc> { self.state.verified_master_keys.clone() } } impl Canceled { fn new(code: CancelCode) -> Canceled { let reason = match code { CancelCode::Accepted => { "A m.key.verification.request was accepted by a different device." } CancelCode::InvalidMessage => "The received message was invalid.", CancelCode::KeyMismatch => "The expected key did not match the verified one", CancelCode::Timeout => "The verification process timed out.", CancelCode::UnexpectedMessage => "The device received an unexpected message.", CancelCode::UnknownMethod => { "The device does not know how to handle the requested method." } CancelCode::UnknownTransaction => { "The device does not know about the given transaction ID." } CancelCode::User => "The user cancelled the verification.", CancelCode::UserMismatch => "The expected user did not match the verified user", _ => unimplemented!(), }; Canceled { cancel_code: code, reason, } } } impl SasState { pub fn as_content(&self) -> AnyToDeviceEventContent { AnyToDeviceEventContent::KeyVerificationCancel(CancelEventContent { transaction_id: self.verification_flow_id.to_string(), reason: self.state.reason.to_string(), code: self.state.cancel_code.clone(), }) } } #[cfg(test)] mod test { use std::convert::TryFrom; use crate::{Account, Device}; use matrix_sdk_common::{ events::{ key::verification::{ accept::{AcceptMethod, CustomContent}, start::{CustomContent as CustomStartContent, StartMethod}, }, EventContent, ToDeviceEvent, }, identifiers::{DeviceId, UserId}, }; use super::{Accepted, Created, SasState, Started}; fn alice_id() -> UserId { UserId::try_from("@alice:example.org").unwrap() } fn alice_device_id() -> Box { "JLAFKJWSCS".into() } fn bob_id() -> UserId { UserId::try_from("@bob:example.org").unwrap() } fn bob_device_id() -> Box { "BOBDEVCIE".into() } fn wrap_to_device_event(sender: &UserId, content: C) -> ToDeviceEvent { ToDeviceEvent { sender: sender.clone(), content, } } async fn get_sas_pair() -> (SasState, SasState) { let alice = Account::new(&alice_id(), &alice_device_id()); let alice_device = Device::from_account(&alice).await; let bob = Account::new(&bob_id(), &bob_device_id()); let bob_device = Device::from_account(&bob).await; let alice_sas = SasState::::new(alice.clone(), bob_device); let start_content = alice_sas.as_content(); let event = wrap_to_device_event(alice_sas.user_id(), start_content); let bob_sas = SasState::::from_start_event(bob.clone(), alice_device, &event); (alice_sas, bob_sas.unwrap()) } #[tokio::test] async fn create_sas() { let (_, _) = get_sas_pair().await; } #[tokio::test] async fn sas_accept() { let (alice, bob) = get_sas_pair().await; let event = wrap_to_device_event(bob.user_id(), bob.as_content()); alice.into_accepted(&event).unwrap(); } #[tokio::test] async fn sas_key_share() { let (alice, bob) = get_sas_pair().await; let event = wrap_to_device_event(bob.user_id(), bob.as_content()); let alice: SasState = alice.into_accepted(&event).unwrap(); let mut event = wrap_to_device_event(alice.user_id(), alice.as_content()); let bob = bob.into_key_received(&mut event).unwrap(); let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); let alice = alice.into_key_received(&mut event).unwrap(); assert_eq!(alice.get_decimal(), bob.get_decimal()); assert_eq!(alice.get_emoji(), bob.get_emoji()); } #[tokio::test] async fn sas_full() { let (alice, bob) = get_sas_pair().await; let event = wrap_to_device_event(bob.user_id(), bob.as_content()); let alice: SasState = alice.into_accepted(&event).unwrap(); let mut event = wrap_to_device_event(alice.user_id(), alice.as_content()); let bob = bob.into_key_received(&mut event).unwrap(); let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); let alice = alice.into_key_received(&mut event).unwrap(); assert_eq!(alice.get_decimal(), bob.get_decimal()); assert_eq!(alice.get_emoji(), bob.get_emoji()); let bob_decimals = bob.get_decimal(); let bob = bob.confirm(); let event = wrap_to_device_event(bob.user_id(), bob.as_content()); let alice = alice.into_mac_received(&event).unwrap(); assert!(!alice.get_emoji().is_empty()); assert_eq!(alice.get_decimal(), bob_decimals); let alice = alice.confirm(); let event = wrap_to_device_event(alice.user_id(), alice.as_content()); let bob = bob.into_done(&event).unwrap(); assert!(bob.verified_devices().contains(&bob.other_device())); assert!(alice.verified_devices().contains(&alice.other_device())); } #[tokio::test] async fn sas_invalid_commitment() { let (alice, bob) = get_sas_pair().await; let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); match &mut event.content.method { AcceptMethod::MSasV1(ref mut c) => { c.commitment = "".to_string(); } _ => panic!("Unknown accept event content"), } let alice: SasState = alice.into_accepted(&event).unwrap(); let mut event = wrap_to_device_event(alice.user_id(), alice.as_content()); let bob = bob.into_key_received(&mut event).unwrap(); let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); alice .into_key_received(&mut event) .expect_err("Didn't cancel on invalid commitment"); } #[tokio::test] async fn sas_invalid_sender() { let (alice, bob) = get_sas_pair().await; let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); event.sender = UserId::try_from("@malory:example.org").unwrap(); alice .into_accepted(&event) .expect_err("Didn't cancel on a invalid sender"); } #[tokio::test] async fn sas_unknown_sas_method() { let (alice, bob) = get_sas_pair().await; let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); match &mut event.content.method { AcceptMethod::MSasV1(ref mut c) => { c.short_authentication_string = vec![]; } _ => panic!("Unknown accept event content"), } alice .into_accepted(&event) .expect_err("Didn't cancel on an invalid SAS method"); } #[tokio::test] async fn sas_unknown_method() { let (alice, bob) = get_sas_pair().await; let mut event = wrap_to_device_event(bob.user_id(), bob.as_content()); event.content.method = AcceptMethod::Custom(CustomContent { method: "m.sas.custom".to_string(), fields: vec![].into_iter().collect(), }); alice .into_accepted(&event) .expect_err("Didn't cancel on an unknown SAS method"); } #[tokio::test] async fn sas_from_start_unknown_method() { let alice = Account::new(&alice_id(), &alice_device_id()); let alice_device = Device::from_account(&alice).await; let bob = Account::new(&bob_id(), &bob_device_id()); let bob_device = Device::from_account(&bob).await; let alice_sas = SasState::::new(alice.clone(), bob_device); let mut start_content = alice_sas.as_content(); match start_content.method { StartMethod::MSasV1(ref mut c) => { c.message_authentication_codes = vec![]; } _ => panic!("Unknown SAS start method"), } let event = wrap_to_device_event(alice_sas.user_id(), start_content); SasState::::from_start_event(bob.clone(), alice_device.clone(), &event) .expect_err("Didn't cancel on invalid MAC method"); let mut start_content = alice_sas.as_content(); start_content.method = StartMethod::Custom(CustomStartContent { method: "m.sas.custom".to_string(), fields: vec![].into_iter().collect(), }); let event = wrap_to_device_event(alice_sas.user_id(), start_content); SasState::::from_start_event(bob.clone(), alice_device, &event) .expect_err("Didn't cancel on unknown sas method"); } }