//! End-to-end encryption support. use anyhow::{format_err, Context as _, Result}; use num_traits::FromPrimitive; use crate::aheader::{Aheader, EncryptPreference}; use crate::config::Config; use crate::context::Context; use crate::key::{DcKey, SignedPublicKey, SignedSecretKey}; use crate::keyring::Keyring; use crate::peerstate::{Peerstate, PeerstateVerifiedStatus}; use crate::pgp; #[derive(Debug)] pub struct EncryptHelper { pub prefer_encrypt: EncryptPreference, pub addr: String, pub public_key: SignedPublicKey, } impl EncryptHelper { pub async fn new(context: &Context) -> Result { let prefer_encrypt = EncryptPreference::from_i32(context.get_config_int(Config::E2eeEnabled).await?) .unwrap_or_default(); let addr = context.get_primary_self_addr().await?; let public_key = SignedPublicKey::load_self(context).await?; Ok(EncryptHelper { prefer_encrypt, addr, public_key, }) } pub fn get_aheader(&self) -> Aheader { let pk = self.public_key.clone(); let addr = self.addr.to_string(); Aheader::new(addr, pk, self.prefer_encrypt) } /// Determines if we can and should encrypt. /// /// For encryption to be enabled, `e2ee_guaranteed` should be true, or strictly more than a half /// of peerstates should prefer encryption. Own preference is counted equally to peer /// preferences, even if message copy is not sent to self. /// /// `e2ee_guaranteed` should be set to true for replies to encrypted messages (as required by /// Autocrypt Level 1, version 1.1) and for messages sent in protected groups. /// /// Returns an error if `e2ee_guaranteed` is true, but one or more keys are missing. pub fn should_encrypt( &self, context: &Context, e2ee_guaranteed: bool, peerstates: &[(Option, &str)], ) -> Result { let mut prefer_encrypt_count = if self.prefer_encrypt == EncryptPreference::Mutual { 1 } else { 0 }; for (peerstate, addr) in peerstates { match peerstate { Some(peerstate) => { info!( context, "peerstate for {:?} is {}", addr, peerstate.prefer_encrypt ); match peerstate.prefer_encrypt { EncryptPreference::NoPreference => {} EncryptPreference::Mutual => prefer_encrypt_count += 1, EncryptPreference::Reset => { if !e2ee_guaranteed { return Ok(false); } } }; } None => { let msg = format!("peerstate for {:?} missing, cannot encrypt", addr); if e2ee_guaranteed { return Err(format_err!("{}", msg)); } else { info!(context, "{}", msg); return Ok(false); } } } } // Count number of recipients, including self. // This does not depend on whether we send a copy to self or not. let recipients_count = peerstates.len() + 1; Ok(e2ee_guaranteed || 2 * prefer_encrypt_count > recipients_count) } /// Tries to encrypt the passed in `mail`. pub async fn encrypt( self, context: &Context, min_verified: PeerstateVerifiedStatus, mail_to_encrypt: lettre_email::PartBuilder, peerstates: Vec<(Option, &str)>, ) -> Result { let mut keyring: Keyring = Keyring::new(); for (peerstate, addr) in peerstates .into_iter() .filter_map(|(state, addr)| state.map(|s| (s, addr))) { let key = peerstate .take_key(min_verified) .with_context(|| format!("proper enc-key for {} missing, cannot encrypt", addr))?; keyring.add(key); } keyring.add(self.public_key.clone()); let sign_key = SignedSecretKey::load_self(context).await?; let raw_message = mail_to_encrypt.build().as_string().into_bytes(); let ctext = pgp::pk_encrypt(&raw_message, keyring, Some(sign_key)).await?; Ok(ctext) } } /// Ensures a private key exists for the configured user. /// /// Normally the private key is generated when the first message is /// sent but in a few locations there are no such guarantees, /// e.g. when exporting keys, and calling this function ensures a /// private key will be present. /// /// If this succeeds you are also guaranteed that the /// [Config::ConfiguredAddr] is configured, this address is returned. // TODO, remove this once deltachat::key::Key no longer exists. pub async fn ensure_secret_key_exists(context: &Context) -> Result { let self_addr = context.get_primary_self_addr().await?; SignedPublicKey::load_self(context).await?; Ok(self_addr) } #[cfg(test)] mod tests { use crate::chat; use crate::message::{Message, Viewtype}; use crate::param::Param; use crate::peerstate::ToSave; use crate::test_utils::{bob_keypair, TestContext}; use super::*; mod ensure_secret_key_exists { use super::*; #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_prexisting() { let t = TestContext::new_alice().await; assert_eq!( ensure_secret_key_exists(&t).await.unwrap(), "alice@example.org" ); } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_not_configured() { let t = TestContext::new().await; assert!(ensure_secret_key_exists(&t).await.is_err()); } } #[test] fn test_mailmime_parse() { let plain = b"Chat-Disposition-Notification-To: hello@world.de Chat-Group-ID: CovhGgau8M- Chat-Group-Name: Delta Chat Dev Subject: =?utf-8?Q?Chat=3A?= Delta Chat =?utf-8?Q?Dev=3A?= sidenote for =?utf-8?Q?all=3A?= rust core master ... Content-Type: text/plain; charset=\"utf-8\"; protected-headers=\"v1\" Content-Transfer-Encoding: quoted-printable sidenote for all: things are trick atm recomm= end not to try to run with desktop or ios unless you are ready to hunt bugs -- =20 Sent with my Delta Chat Messenger: https://delta.chat"; let mail = mailparse::parse_mail(plain).expect("failed to parse valid message"); assert_eq!(mail.headers.len(), 6); assert!( mail.get_body().unwrap().starts_with( "sidenote for all: things are trick atm recommend not to try to run with desktop or ios unless you are ready to hunt bugs") ); } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_encrypted_no_autocrypt() -> anyhow::Result<()> { let alice = TestContext::new_alice().await; let bob = TestContext::new_bob().await; let chat_alice = alice.create_chat(&bob).await.id; let chat_bob = bob.create_chat(&alice).await.id; // Alice sends unencrypted message to Bob let mut msg = Message::new(Viewtype::Text); chat::prepare_msg(&alice.ctx, chat_alice, &mut msg).await?; chat::send_msg(&alice.ctx, chat_alice, &mut msg).await?; let sent = alice.pop_sent_msg().await; // Bob receives unencrypted message from Alice let msg = bob.parse_msg(&sent).await; assert!(!msg.was_encrypted()); // Parsing a message is enough to update peerstate let peerstate_alice = Peerstate::from_addr(&bob.ctx, "alice@example.org") .await? .expect("no peerstate found in the database"); assert_eq!(peerstate_alice.prefer_encrypt, EncryptPreference::Mutual); // Bob sends encrypted message to Alice let mut msg = Message::new(Viewtype::Text); chat::prepare_msg(&bob.ctx, chat_bob, &mut msg).await?; chat::send_msg(&bob.ctx, chat_bob, &mut msg).await?; let sent = bob.pop_sent_msg().await; // Alice receives encrypted message from Bob let msg = alice.parse_msg(&sent).await; assert!(msg.was_encrypted()); let peerstate_bob = Peerstate::from_addr(&alice.ctx, "bob@example.net") .await? .expect("no peerstate found in the database"); assert_eq!(peerstate_bob.prefer_encrypt, EncryptPreference::Mutual); // Now Alice and Bob have established keys. // Alice sends encrypted message without Autocrypt header. let mut msg = Message::new(Viewtype::Text); msg.param.set_int(Param::SkipAutocrypt, 1); chat::prepare_msg(&alice.ctx, chat_alice, &mut msg).await?; chat::send_msg(&alice.ctx, chat_alice, &mut msg).await?; let sent = alice.pop_sent_msg().await; let msg = bob.parse_msg(&sent).await; assert!(msg.was_encrypted()); let peerstate_alice = Peerstate::from_addr(&bob.ctx, "alice@example.org") .await? .expect("no peerstate found in the database"); assert_eq!(peerstate_alice.prefer_encrypt, EncryptPreference::Mutual); // Alice sends plaintext message with Autocrypt header. let mut msg = Message::new(Viewtype::Text); msg.force_plaintext(); chat::prepare_msg(&alice.ctx, chat_alice, &mut msg).await?; chat::send_msg(&alice.ctx, chat_alice, &mut msg).await?; let sent = alice.pop_sent_msg().await; let msg = bob.parse_msg(&sent).await; assert!(!msg.was_encrypted()); let peerstate_alice = Peerstate::from_addr(&bob.ctx, "alice@example.org") .await? .expect("no peerstate found in the database"); assert_eq!(peerstate_alice.prefer_encrypt, EncryptPreference::Mutual); // Alice sends plaintext message without Autocrypt header. let mut msg = Message::new(Viewtype::Text); msg.force_plaintext(); msg.param.set_int(Param::SkipAutocrypt, 1); chat::prepare_msg(&alice.ctx, chat_alice, &mut msg).await?; chat::send_msg(&alice.ctx, chat_alice, &mut msg).await?; let sent = alice.pop_sent_msg().await; let msg = bob.parse_msg(&sent).await; assert!(!msg.was_encrypted()); let peerstate_alice = Peerstate::from_addr(&bob.ctx, "alice@example.org") .await? .expect("no peerstate found in the database"); assert_eq!(peerstate_alice.prefer_encrypt, EncryptPreference::Reset); Ok(()) } fn new_peerstates(prefer_encrypt: EncryptPreference) -> Vec<(Option, &'static str)> { let addr = "bob@foo.bar"; let pub_key = bob_keypair().public; let peerstate = Peerstate { addr: addr.into(), last_seen: 13, last_seen_autocrypt: 14, prefer_encrypt, public_key: Some(pub_key.clone()), public_key_fingerprint: Some(pub_key.fingerprint()), gossip_key: Some(pub_key.clone()), gossip_timestamp: 15, gossip_key_fingerprint: Some(pub_key.fingerprint()), verified_key: Some(pub_key.clone()), verified_key_fingerprint: Some(pub_key.fingerprint()), to_save: Some(ToSave::All), fingerprint_changed: false, }; vec![(Some(peerstate), addr)] } #[tokio::test(flavor = "multi_thread", worker_threads = 2)] async fn test_should_encrypt() { let t = TestContext::new_alice().await; let encrypt_helper = EncryptHelper::new(&t).await.unwrap(); // test with EncryptPreference::NoPreference: // if e2ee_eguaranteed is unset, there is no encryption as not more than half of peers want encryption let ps = new_peerstates(EncryptPreference::NoPreference); assert!(encrypt_helper.should_encrypt(&t, true, &ps).unwrap()); assert!(!encrypt_helper.should_encrypt(&t, false, &ps).unwrap()); // test with EncryptPreference::Reset let ps = new_peerstates(EncryptPreference::Reset); assert!(encrypt_helper.should_encrypt(&t, true, &ps).unwrap()); assert!(!encrypt_helper.should_encrypt(&t, false, &ps).unwrap()); // test with EncryptPreference::Mutual (self is also Mutual) let ps = new_peerstates(EncryptPreference::Mutual); assert!(encrypt_helper.should_encrypt(&t, true, &ps).unwrap()); assert!(encrypt_helper.should_encrypt(&t, false, &ps).unwrap()); // test with missing peerstate let ps = vec![(None, "bob@foo.bar")]; assert!(encrypt_helper.should_encrypt(&t, true, &ps).is_err()); assert!(!encrypt_helper.should_encrypt(&t, false, &ps).unwrap()); } }