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Quelle client_tests.rs
Sprache: unbekannt
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// Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
// Copyright by contributors to this project.
// SPDX-License-Identifier: (Apache-2.0 OR MIT)
use assert_matches::assert_matches;
use cfg_if::cfg_if;
use mls_rs::client_builder::MlsConfig;
use mls_rs::error::MlsError;
use mls_rs::group::proposal::Proposal;
use mls_rs::group::ReceivedMessage;
use mls_rs::identity::SigningIdentity;
use mls_rs::mls_rules::CommitOptions;
use mls_rs::ExtensionList;
use mls_rs::MlsMessage;
use mls_rs::ProtocolVersion;
use mls_rs::{CipherSuite, Group};
use mls_rs::{Client, CryptoProvider};
use mls_rs_core::crypto::CipherSuiteProvider;
use rand::prelude::SliceRandom;
use rand::RngCore;
use mls_rs::test_utils::{all_process_message, get_test_basic_credential};
#[cfg(mls_build_async)]
use futures::Future;
cfg_if! {
if #[cfg(target_arch = "wasm32")] {
use mls_rs_crypto_webcrypto::WebCryptoProvider as TestCryptoProvider;
} else {
use mls_rs_crypto_openssl::OpensslCryptoProvider as TestCryptoProvider;
}
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn generate_client(
cipher_suite: CipherSuite,
protocol_version: ProtocolVersion,
id: usize,
encrypt_controls: bool,
) -> Client<impl MlsConfig> {
mls_rs::test_utils::generate_basic_client(
cipher_suite,
protocol_version,
id,
None,
encrypt_controls,
&TestCryptoProvider::default(),
None,
)
.await
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
pub async fn get_test_groups(
version: ProtocolVersion,
cipher_suite: CipherSuite,
num_participants: usize,
encrypt_controls: bool,
) -> Vec<Group<impl MlsConfig>> {
mls_rs::test_utils::get_test_groups(
version,
cipher_suite,
num_participants,
None,
encrypt_controls,
&TestCryptoProvider::default(),
)
.await
}
use rand::seq::IteratorRandom;
#[cfg(target_arch = "wasm32")]
wasm_bindgen_test::wasm_bindgen_test_configure!(run_in_browser);
#[cfg(target_arch = "wasm32")]
use wasm_bindgen_test::wasm_bindgen_test as futures_test;
#[cfg(all(mls_build_async, not(target_arch = "wasm32")))]
use futures_test::test as futures_test;
#[cfg(feature = "private_message")]
#[cfg(mls_build_async)]
async fn test_on_all_params<F, Fut>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool) -> Fut,
Fut: Future<Output = ()>,
{
for version in ProtocolVersion::all() {
for cs in TestCryptoProvider::all_supported_cipher_suites() {
for encrypt_controls in [true, false] {
test(version, cs, 10, encrypt_controls).await;
}
}
}
}
#[cfg(feature = "private_message")]
#[cfg(not(mls_build_async))]
fn test_on_all_params<F>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool),
{
for version in ProtocolVersion::all() {
for cs in TestCryptoProvider::all_supported_cipher_suites() {
for encrypt_controls in [true, false] {
test(version, cs, 10, encrypt_controls);
}
}
}
}
#[cfg(not(feature = "private_message"))]
#[cfg(mls_build_async)]
async fn test_on_all_params<F, Fut>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool) -> Fut,
Fut: Future<Output = ()>,
{
test_on_all_params_plaintext(test).await;
}
#[cfg(not(feature = "private_message"))]
#[cfg(not(mls_build_async))]
fn test_on_all_params<F>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool),
{
test_on_all_params_plaintext(test);
}
#[cfg(mls_build_async)]
async fn test_on_all_params_plaintext<F, Fut>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool) -> Fut,
Fut: Future<Output = ()>,
{
for version in ProtocolVersion::all() {
for cs in TestCryptoProvider::all_supported_cipher_suites() {
test(version, cs, 10, false).await;
}
}
}
#[cfg(not(mls_build_async))]
fn test_on_all_params_plaintext<F>(test: F)
where
F: Fn(ProtocolVersion, CipherSuite, usize, bool),
{
for version in ProtocolVersion::all() {
for cs in TestCryptoProvider::all_supported_cipher_suites() {
test(version, cs, 10, false);
}
}
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn test_create(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
_n_participants: usize,
encrypt_controls: bool,
) {
let alice = generate_client(cipher_suite, protocol_version, 0, encrypt_controls).await;
let bob = generate_client(cipher_suite, protocol_version, 1, encrypt_controls).await;
let bob_key_pkg = bob.generate_key_package_message().await.unwrap();
// Alice creates a group and adds bob
let mut alice_group = alice
.create_group_with_id(b"group".to_vec(), ExtensionList::default())
.await
.unwrap();
let welcome = &alice_group
.commit_builder()
.add_member(bob_key_pkg)
.unwrap()
.build()
.await
.unwrap()
.welcome_messages[0];
// Upon server confirmation, alice applies the commit to her own state
alice_group.apply_pending_commit().await.unwrap();
// Bob receives the welcome message and joins the group
let (bob_group, _) = bob.join_group(None, welcome).await.unwrap();
assert!(Group::equal_group_state(&alice_group, &bob_group));
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_create_group() {
test_on_all_params(test_create).await;
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn test_empty_commits(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
participants: usize,
encrypt_controls: bool,
) {
let mut groups = get_test_groups(
protocol_version,
cipher_suite,
participants,
encrypt_controls,
)
.await;
// Loop through each participant and send a path update
for i in 0..groups.len() {
// Create the commit
let commit_output = groups[i].commit(Vec::new()).await.unwrap();
assert!(commit_output.welcome_messages.is_empty());
let index = groups[i].current_member_index() as usize;
all_process_message(&mut groups, &commit_output.commit_message, index, true).await;
for other_group in groups.iter() {
assert!(Group::equal_group_state(other_group, &groups[i]));
}
}
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_group_path_updates() {
test_on_all_params(test_empty_commits).await;
}
#[cfg(feature = "by_ref_proposal")]
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn test_update_proposals(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
participants: usize,
encrypt_controls: bool,
) {
let mut groups = get_test_groups(
protocol_version,
cipher_suite,
participants,
encrypt_controls,
)
.await;
// Create an update from the ith member, have the ith + 1 member commit it
for i in 0..groups.len() - 1 {
let update_proposal_msg = groups[i].propose_update(Vec::new()).await.unwrap();
let sender = groups[i].current_member_index() as usize;
all_process_message(&mut groups, &update_proposal_msg, sender, false).await;
// Everyone receives the commit
let committer_index = i + 1;
let commit_output = groups[committer_index].commit(Vec::new()).await.unwrap();
assert!(commit_output.welcome_messages.is_empty());
let commit = commit_output.commit_message;
all_process_message(&mut groups, &commit, committer_index, true).await;
groups
.iter()
.for_each(|g| assert!(Group::equal_group_state(g, &groups[0])));
}
}
#[cfg(feature = "by_ref_proposal")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_group_update_proposals() {
test_on_all_params(test_update_proposals).await;
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn test_remove_proposals(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
participants: usize,
encrypt_controls: bool,
) {
let mut groups = get_test_groups(
protocol_version,
cipher_suite,
participants,
encrypt_controls,
)
.await;
// Remove people from the group one at a time
while groups.len() > 1 {
let removed_and_committer = (0..groups.len()).choose_multiple(&mut rand::thread_rng(), 2);
let to_remove = removed_and_committer[0];
let committer = removed_and_committer[1];
let to_remove_index = groups[to_remove].current_member_index();
let epoch_before_remove = groups[committer].current_epoch();
let commit_output = groups[committer]
.commit_builder()
.remove_member(to_remove_index)
.unwrap()
.build()
.await
.unwrap();
assert!(commit_output.welcome_messages.is_empty());
let commit = commit_output.commit_message;
let committer_index = groups[committer].current_member_index() as usize;
all_process_message(&mut groups, &commit, committer_index, true).await;
// Check that remove was effective
for (i, group) in groups.iter().enumerate() {
if i == to_remove {
assert_eq!(group.current_epoch(), epoch_before_remove);
} else {
assert_eq!(group.current_epoch(), epoch_before_remove + 1);
assert!(group.roster().member_with_index(to_remove_index).is_err());
}
}
groups.retain(|group| group.current_member_index() != to_remove_index);
for one_group in groups.iter() {
assert!(Group::equal_group_state(one_group, &groups[0]))
}
}
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_group_remove_proposals() {
test_on_all_params(test_remove_proposals).await;
}
#[cfg(feature = "private_message")]
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn test_application_messages(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
participants: usize,
encrypt_controls: bool,
) {
let message_count = 20;
let mut groups = get_test_groups(
protocol_version,
cipher_suite,
participants,
encrypt_controls,
)
.await;
// Loop through each participant and send application messages
for i in 0..groups.len() {
let mut test_message = vec![0; 1024];
rand::thread_rng().fill_bytes(&mut test_message);
for _ in 0..message_count {
// Encrypt the application message
let ciphertext = groups[i]
.encrypt_application_message(&test_message, Vec::new())
.await
.unwrap();
let sender_index = groups[i].current_member_index();
for g in groups.iter_mut() {
if g.current_member_index() != sender_index {
let decrypted = g
.process_incoming_message(ciphertext.clone())
.await
.unwrap();
assert_matches!(decrypted, ReceivedMessage::ApplicationMessage(m) if m.data() == test_message);
}
}
}
}
}
#[cfg(all(feature = "private_message", feature = "out_of_order"))]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_out_of_order_application_messages() {
let mut groups =
get_test_groups(ProtocolVersion::MLS_10, CipherSuite::P256_AES128, 2, false).await;
let mut alice_group = groups[0].clone();
let bob_group = &mut groups[1];
let ciphertext = alice_group
.encrypt_application_message(&[0], Vec::new())
.await
.unwrap();
let mut ciphertexts = vec![ciphertext];
ciphertexts.push(
alice_group
.encrypt_application_message(&[1], Vec::new())
.await
.unwrap(),
);
let commit = alice_group.commit(Vec::new()).await.unwrap().commit_message;
alice_group.apply_pending_commit().await.unwrap();
bob_group.process_incoming_message(commit).await.unwrap();
ciphertexts.push(
alice_group
.encrypt_application_message(&[2], Vec::new())
.await
.unwrap(),
);
ciphertexts.push(
alice_group
.encrypt_application_message(&[3], Vec::new())
.await
.unwrap(),
);
for i in [3, 2, 1, 0] {
let res = bob_group
.process_incoming_message(ciphertexts[i].clone())
.await
.unwrap();
assert_matches!(
res,
ReceivedMessage::ApplicationMessage(m) if m.data() == [i as u8]
);
}
}
#[cfg(feature = "private_message")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_group_application_messages() {
test_on_all_params(test_application_messages).await
}
#[cfg(feature = "private_message")]
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn processing_message_from_self_returns_error(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
_n_participants: usize,
encrypt_controls: bool,
) {
let mut creator_group =
get_test_groups(protocol_version, cipher_suite, 1, encrypt_controls).await;
let creator_group = &mut creator_group[0];
let msg = creator_group
.encrypt_application_message(b"hello self", vec![])
.await
.unwrap();
let error = creator_group
.process_incoming_message(msg)
.await
.unwrap_err();
assert_matches!(error, MlsError::CantProcessMessageFromSelf);
}
#[cfg(feature = "private_message")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_processing_message_from_self_returns_error() {
test_on_all_params(processing_message_from_self_returns_error).await;
}
#[cfg(feature = "by_ref_proposal")]
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn external_commits_work(
protocol_version: ProtocolVersion,
cipher_suite: CipherSuite,
_n_participants: usize,
_encrypt_controls: bool,
) {
let creator = generate_client(cipher_suite, protocol_version, 0, false).await;
let creator_group = creator
.create_group_with_id(b"group".to_vec(), ExtensionList::default())
.await
.unwrap();
const PARTICIPANT_COUNT: usize = 10;
let mut others = Vec::new();
for i in 1..PARTICIPANT_COUNT {
others.push(generate_client(cipher_suite, protocol_version, i, Default::default()).await)
}
let mut groups = vec![creator_group];
for client in &others {
let existing_group = groups.choose_mut(&mut rand::thread_rng()).unwrap();
let group_info = existing_group
.group_info_message_allowing_ext_commit(true)
.await
.unwrap();
let (new_group, commit) = client
.external_commit_builder()
.unwrap()
.build(group_info)
.await
.unwrap();
for group in groups.iter_mut() {
group
.process_incoming_message(commit.clone())
.await
.unwrap();
}
groups.push(new_group);
}
assert!(groups
.iter()
.all(|group| group.roster().members_iter().count() == PARTICIPANT_COUNT));
for i in 0..groups.len() {
let message = groups[i].propose_remove(0, Vec::new()).await.unwrap();
for (_, group) in groups.iter_mut().enumerate().filter(|&(j, _)| i != j) {
let processed = group
.process_incoming_message(message.clone())
.await
.unwrap();
if let ReceivedMessage::Proposal(p) = &processed {
if let Proposal::Remove(r) = &p.proposal {
if r.to_remove() == 0 {
continue;
}
}
}
panic!("expected a proposal, got {processed:?}");
}
}
}
#[cfg(feature = "by_ref_proposal")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_external_commits() {
test_on_all_params_plaintext(external_commits_work).await
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn test_remove_nonexisting_leaf() {
let mut groups =
get_test_groups(ProtocolVersion::MLS_10, CipherSuite::P256_AES128, 10, false).await;
groups[0]
.commit_builder()
.remove_member(5)
.unwrap()
.build()
.await
.unwrap();
groups[0].apply_pending_commit().await.unwrap();
// Leaf index out of bounds
assert!(groups[0].commit_builder().remove_member(13).is_err());
// Removing blank leaf causes error
assert!(groups[0].commit_builder().remove_member(5).is_err());
}
#[cfg(feature = "psk")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn reinit_works() {
let suite1 = CipherSuite::P256_AES128;
let Some(suite2) = CipherSuite::all()
.find(|cs| cs != &suite1 && TestCryptoProvider::all_supported_cipher_suites().contains(cs))
else {
return;
};
let version = ProtocolVersion::MLS_10;
let alice1 = generate_client(suite1, version, 1, Default::default()).await;
let bob1 = generate_client(suite1, version, 2, Default::default()).await;
// Create a group with 2 parties
let mut alice_group = alice1.create_group(ExtensionList::new()).await.unwrap();
let kp = bob1.generate_key_package_message().await.unwrap();
let welcome = &alice_group
.commit_builder()
.add_member(kp)
.unwrap()
.build()
.await
.unwrap()
.welcome_messages[0];
alice_group.apply_pending_commit().await.unwrap();
let (mut bob_group, _) = bob1.join_group(None, welcome).await.unwrap();
// Alice proposes reinit
let reinit_proposal_message = alice_group
.propose_reinit(
None,
ProtocolVersion::MLS_10,
suite2,
ExtensionList::default(),
Vec::new(),
)
.await
.unwrap();
// Bob commits the reinit
bob_group
.process_incoming_message(reinit_proposal_message)
.await
.unwrap();
let commit = bob_group.commit(Vec::new()).await.unwrap().commit_message;
// Both process Bob's commit
#[cfg(feature = "state_update")]
{
let state_update = bob_group.apply_pending_commit().await.unwrap().state_update;
assert!(!state_update.is_active() && state_update.is_pending_reinit());
}
#[cfg(not(feature = "state_update"))]
bob_group.apply_pending_commit().await.unwrap();
let message = alice_group.process_incoming_message(commit).await.unwrap();
#[cfg(feature = "state_update")]
if let ReceivedMessage::Commit(commit_description) = message {
assert!(
!commit_description.state_update.is_active()
&& commit_description.state_update.is_pending_reinit()
);
}
#[cfg(not(feature = "state_update"))]
assert_matches!(message, ReceivedMessage::Commit(_));
// They can't create new epochs anymore
let res = alice_group.commit(Vec::new()).await;
assert!(res.is_err());
let res = bob_group.commit(Vec::new()).await;
assert!(res.is_err());
// Get reinit clients for alice and bob
let (secret_key, public_key) = TestCryptoProvider::new()
.cipher_suite_provider(suite2)
.unwrap()
.signature_key_generate()
.await
.unwrap();
let identity = SigningIdentity::new(get_test_basic_credential(b"bob".to_vec()), public_key);
let bob2 = bob_group
.get_reinit_client(Some(secret_key), Some(identity))
.unwrap();
let (secret_key, public_key) = TestCryptoProvider::new()
.cipher_suite_provider(suite2)
.unwrap()
.signature_key_generate()
.await
.unwrap();
let identity = SigningIdentity::new(get_test_basic_credential(b"alice".to_vec()), public_key);
let alice2 = alice_group
.get_reinit_client(Some(secret_key), Some(identity))
.unwrap();
// Bob produces key package, alice commits, bob joins
let kp = bob2.generate_key_package().await.unwrap();
let (mut alice_group, welcome) = alice2.commit(vec![kp]).await.unwrap();
let (mut bob_group, _) = bob2.join(&welcome[0], None).await.unwrap();
assert!(bob_group.cipher_suite() == suite2);
// They can talk
let carol = generate_client(suite2, version, 3, Default::default()).await;
let kp = carol.generate_key_package_message().await.unwrap();
let commit_output = alice_group
.commit_builder()
.add_member(kp)
.unwrap()
.build()
.await
.unwrap();
alice_group.apply_pending_commit().await.unwrap();
bob_group
.process_incoming_message(commit_output.commit_message)
.await
.unwrap();
carol
.join_group(None, &commit_output.welcome_messages[0])
.await
.unwrap();
}
#[cfg(feature = "by_ref_proposal")]
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn external_joiner_can_process_siblings_update() {
let mut groups =
get_test_groups(ProtocolVersion::MLS_10, CipherSuite::P256_AES128, 3, false).await;
// Remove leaf 1 s.t. the external joiner joins in its place
let c = groups[0]
.commit_builder()
.remove_member(1)
.unwrap()
.build()
.await
.unwrap();
all_process_message(&mut groups, &c.commit_message, 0, true).await;
let info = groups[0]
.group_info_message_allowing_ext_commit(true)
.await
.unwrap();
// Create the external joiner and join
let new_client = generate_client(
CipherSuite::P256_AES128,
ProtocolVersion::MLS_10,
0xabba,
false,
)
.await;
let (mut group, commit) = new_client.commit_external(info).await.unwrap();
all_process_message(&mut groups, &commit, 1, false).await;
groups.remove(1);
// New client's sibling proposes an update to blank their common parent
let p = groups[0].propose_update(Vec::new()).await.unwrap();
all_process_message(&mut groups, &p, 0, false).await;
group.process_incoming_message(p).await.unwrap();
// Some other member commits
let c = groups[1].commit(Vec::new()).await.unwrap().commit_message;
all_process_message(&mut groups, &c, 2, true).await;
group.process_incoming_message(c).await.unwrap();
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn weird_tree_scenario() {
let mut groups =
get_test_groups(ProtocolVersion::MLS_10, CipherSuite::P256_AES128, 17, false).await;
let to_remove = [0u32, 2, 5, 7, 8, 9, 15];
let mut builder = groups[14].commit_builder();
for idx in to_remove.iter() {
builder = builder.remove_member(*idx).unwrap();
}
let commit = builder.build().await.unwrap();
for idx in to_remove.into_iter().rev() {
groups.remove(idx as usize);
}
all_process_message(&mut groups, &commit.commit_message, 14, true).await;
let mut builder = groups.last_mut().unwrap().commit_builder();
for idx in 0..7 {
builder = builder
.add_member(fake_key_package(5555555 + idx).await)
.unwrap()
}
let commit = builder.remove_member(1).unwrap().build().await.unwrap();
let idx = groups.last().unwrap().current_member_index() as usize;
all_process_message(&mut groups, &commit.commit_message, idx, true).await;
}
#[cfg_attr(not(mls_build_async), maybe_async::must_be_sync)]
async fn fake_key_package(id: usize) -> MlsMessage {
generate_client(CipherSuite::P256_AES128, ProtocolVersion::MLS_10, id, false)
.await
.generate_key_package_message()
.await
.unwrap()
}
#[maybe_async::test(not(mls_build_async), async(mls_build_async, futures_test))]
async fn external_info_from_commit_allows_to_join() {
let cs = CipherSuite::P256_AES128;
let version = ProtocolVersion::MLS_10;
let mut alice = mls_rs::test_utils::get_test_groups(
version,
cs,
1,
Some(CommitOptions::new().with_allow_external_commit(true)),
false,
&TestCryptoProvider::default(),
)
.await
.remove(0);
let commit = alice.commit(vec![]).await.unwrap();
alice.apply_pending_commit().await.unwrap();
let bob = generate_client(cs, version, 0xdead, false).await;
let (_bob, commit) = bob
.commit_external(commit.external_commit_group_info.unwrap())
.await
.unwrap();
alice.process_incoming_message(commit).await.unwrap();
}
[ Dauer der Verarbeitung: 0.29 Sekunden
(vorverarbeitet)
]
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2026-04-04
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