mirror of
https://chromium.googlesource.com/crosvm/crosvm
synced 2025-02-09 20:04:20 +00:00
b896b869e4
The extracted tests rely on access to system devices or global state that prevent them from being run in parallel or in restricted environments. As an integration test they will be executed separately and single threaded. Updates the test runner to ensure integration tests are actually run single threaded as intended. BUG=b:244623061 TEST=./tools/run_tests base:\* --repeat 100 -p x86_64/mingw64/aarch64 Change-Id: I4267b9f79055208aca86796d902da251816bcada Reviewed-on: https://chromium-review.googlesource.com/c/crosvm/crosvm/+/3971025 Reviewed-by: Daniel Verkamp <dverkamp@chromium.org> Commit-Queue: Dennis Kempin <denniskempin@google.com>
197 lines
5.6 KiB
Rust
197 lines
5.6 KiB
Rust
// Copyright 2021 The ChromiumOS Authors
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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use std::collections::HashMap;
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use std::sync::Arc;
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use std::sync::Barrier;
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use std::thread;
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use std::time::Duration;
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use base::RecvTube;
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use base::SendTube;
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use base::Tube;
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use serde::Deserialize;
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use serde::Serialize;
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use base::descriptor::FromRawDescriptor;
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use base::descriptor::SafeDescriptor;
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use base::platform::deserialize_with_descriptors;
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use base::platform::SerializeDescriptors;
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use base::Event;
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use base::EventToken;
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use base::ReadNotifier;
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use base::WaitContext;
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#[derive(Serialize, Deserialize)]
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struct DataStruct {
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x: u32,
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}
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#[derive(EventToken, Debug, Eq, PartialEq, Copy, Clone)]
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enum Token {
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ReceivedData,
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}
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// Magics to identify which producer sent a message (& detect corruption).
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const PRODUCER_ID_1: u32 = 801279273;
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const PRODUCER_ID_2: u32 = 345234861;
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#[track_caller]
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fn test_event_pair(send: Event, recv: Event) {
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send.signal().unwrap();
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recv.wait_timeout(Duration::from_secs(1)).unwrap();
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}
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#[test]
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fn send_recv_no_fd() {
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let (s1, s2) = Tube::pair().unwrap();
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let test_msg = "hello world";
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s1.send(&test_msg).unwrap();
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let recv_msg: String = s2.recv().unwrap();
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assert_eq!(test_msg, recv_msg);
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}
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#[test]
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fn send_recv_one_fd() {
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#[derive(Serialize, Deserialize)]
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struct EventStruct {
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x: u32,
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b: Event,
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}
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let (s1, s2) = Tube::pair().unwrap();
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let test_msg = EventStruct {
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x: 100,
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b: Event::new().unwrap(),
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};
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s1.send(&test_msg).unwrap();
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let recv_msg: EventStruct = s2.recv().unwrap();
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assert_eq!(test_msg.x, recv_msg.x);
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test_event_pair(test_msg.b, recv_msg.b);
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}
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/// Send messages to a Tube with the given identifier (see `consume_messages`; we use this to
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/// track different message producers).
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#[track_caller]
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fn produce_messages(tube: SendTube, data: u32, barrier: Arc<Barrier>) -> SendTube {
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let data = DataStruct { x: data };
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barrier.wait();
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for _ in 0..100 {
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tube.send(&data).unwrap();
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}
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tube
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}
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/// Consumes the given number of messages from a Tube, returning the number messages read with
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/// each producer ID.
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#[track_caller]
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fn consume_messages(
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tube: RecvTube,
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count: usize,
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barrier: Arc<Barrier>,
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) -> (RecvTube, usize, usize) {
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barrier.wait();
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let mut id1_count = 0usize;
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let mut id2_count = 0usize;
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for _ in 0..count {
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let msg = tube.recv::<DataStruct>().unwrap();
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match msg.x {
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PRODUCER_ID_1 => id1_count += 1,
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PRODUCER_ID_2 => id2_count += 1,
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_ => panic!(
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"want message with ID {} or {}; got message w/ ID {}.",
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PRODUCER_ID_1, PRODUCER_ID_2, msg.x
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),
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}
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}
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(tube, id1_count, id2_count)
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}
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#[test]
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fn test_serialize_tube_pair() {
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let (tube_send, tube_recv) = Tube::pair().unwrap();
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// Serialize the Tube
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let msg_serialize = SerializeDescriptors::new(&tube_send);
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let serialized = serde_json::to_vec(&msg_serialize).unwrap();
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let msg_descriptors = msg_serialize.into_descriptors();
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// Deserialize the Tube
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let mut msg_descriptors_safe = msg_descriptors
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.into_iter()
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.map(|v| Some(unsafe { SafeDescriptor::from_raw_descriptor(v) }))
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.collect();
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let tube_deserialized: Tube = deserialize_with_descriptors(
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|| serde_json::from_slice(&serialized),
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&mut msg_descriptors_safe,
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)
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.unwrap();
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// Send a message through deserialized Tube
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tube_deserialized.send(&"hi".to_string()).unwrap();
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// Wait for the message to arrive
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let wait_ctx: WaitContext<Token> =
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WaitContext::build_with(&[(tube_recv.get_read_notifier(), Token::ReceivedData)]).unwrap();
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let events = wait_ctx.wait_timeout(Duration::from_secs(10)).unwrap();
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let tokens: Vec<Token> = events
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.iter()
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.filter(|e| e.is_readable)
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.map(|e| e.token)
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.collect();
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assert_eq!(tokens, vec! {Token::ReceivedData});
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assert_eq!(tube_recv.recv::<String>().unwrap(), "hi");
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}
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#[test]
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fn send_recv_mpsc() {
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let (p1, consumer) = Tube::directional_pair().unwrap();
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let p2 = p1.try_clone().unwrap();
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let start_block_p1 = Arc::new(Barrier::new(3));
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let start_block_p2 = start_block_p1.clone();
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let start_block_consumer = start_block_p1.clone();
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let p1_thread = thread::spawn(move || produce_messages(p1, PRODUCER_ID_1, start_block_p1));
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let p2_thread = thread::spawn(move || produce_messages(p2, PRODUCER_ID_2, start_block_p2));
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let (_tube, id1_count, id2_count) = consume_messages(consumer, 200, start_block_consumer);
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assert_eq!(id1_count, 100);
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assert_eq!(id2_count, 100);
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p1_thread.join().unwrap();
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p2_thread.join().unwrap();
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}
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#[test]
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fn send_recv_hash_map() {
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let (s1, s2) = Tube::pair().unwrap();
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let mut test_msg = HashMap::new();
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test_msg.insert("Red".to_owned(), Event::new().unwrap());
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test_msg.insert("White".to_owned(), Event::new().unwrap());
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test_msg.insert("Blue".to_owned(), Event::new().unwrap());
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test_msg.insert("Orange".to_owned(), Event::new().unwrap());
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test_msg.insert("Green".to_owned(), Event::new().unwrap());
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s1.send(&test_msg).unwrap();
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let mut recv_msg: HashMap<String, Event> = s2.recv().unwrap();
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let mut test_msg_keys: Vec<_> = test_msg.keys().collect();
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test_msg_keys.sort();
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let mut recv_msg_keys: Vec<_> = recv_msg.keys().collect();
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recv_msg_keys.sort();
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assert_eq!(test_msg_keys, recv_msg_keys);
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for (key, test_event) in test_msg {
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let recv_event = recv_msg.remove(&key).unwrap();
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test_event_pair(test_event, recv_event);
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}
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}
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