/* * Copyright 2019 fsyncd, Berlin, Germany. * * 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 rand::RngCore; use sha2::{Digest, Sha256}; use tokio::io::{AsyncReadExt, AsyncWriteExt}; #[cfg(target_os = "linux")] use tokio_vsock::VsockListener; use tokio_vsock::{VsockAddr, VsockStream}; const TEST_BLOB_SIZE: usize = 100_000; const TEST_BLOCK_SIZE: usize = 5_000; /// A simple test for the tokio-vsock implementation. /// Generate a large random blob of binary data, and transfer it in chunks over the VsockStream /// interface. The vm enpoint is running a simple echo server, so for each chunk we will read /// it's reply and compute a checksum. Comparing the data sent and received confirms that the /// vsock implementation does not introduce corruption and properly implements the interface /// semantics. #[tokio::test] async fn test_vsock_server() { let mut rng = rand::thread_rng(); let mut blob: Vec = vec![]; let mut rx_blob = vec![]; let mut tx_pos = 0; blob.resize(TEST_BLOB_SIZE, 0); rx_blob.resize(TEST_BLOB_SIZE, 0); rng.fill_bytes(&mut blob); let addr = VsockAddr::new(3, 8000); let mut stream = VsockStream::connect(addr).await.expect("connection failed"); while tx_pos < TEST_BLOB_SIZE { let written_bytes = stream .write(&blob[tx_pos..tx_pos + TEST_BLOCK_SIZE]) .await .expect("write failed"); if written_bytes == 0 { panic!("stream unexpectedly closed"); } let mut rx_pos = tx_pos; while rx_pos < (tx_pos + written_bytes) { let read_bytes = stream .read(&mut rx_blob[rx_pos..]) .await .expect("read failed"); if read_bytes == 0 { panic!("stream unexpectedly closed"); } rx_pos += read_bytes; } tx_pos += written_bytes; } let expected = Sha256::digest(&blob); let actual = Sha256::digest(&rx_blob); assert_eq!(expected, actual); } #[tokio::test] async fn test_vsock_conn_error() { let addr = VsockAddr::new(3, 8001); let err = VsockStream::connect(addr) .await .expect_err("connection succeeded") .raw_os_error() .expect("not an OS error"); if err == 0 { panic!("non-zero error expected"); } } /// This test was taken from tokio/tests/tcp_split.rs and adapted to fit the Vsock API /// /// source: https://github.com/tokio-rs/tokio/blob/fc9518b62714daac9a38b46c698b94ac5d5b1ca2/tokio/tests/tcp_split.rs #[tokio::test] #[cfg(target_os = "linux")] async fn split_vsock() { const MSG: &[u8] = b"split"; const PORT: u32 = 8002; let addr = VsockAddr::new(tokio_vsock::VMADDR_CID_LOCAL, PORT); let mut listener = VsockListener::bind(addr).expect("connection failed"); let handle = tokio::task::spawn(async move { let (mut stream, _) = listener .accept() .await .expect("failed to accept connection"); stream .write_all(MSG) .await .expect("failed to write to vsock from task"); let mut read_buf = [0u8; 32]; let read_len = stream .read(&mut read_buf) .await .expect("failed to read data"); assert_eq!(&read_buf[..read_len], MSG); }); let mut stream = VsockStream::connect(addr).await.expect("connection failed"); let (mut read_half, mut write_half) = stream.split(); let mut read_buf = [0u8; 32]; let read_len = read_half .read(&mut read_buf[..]) .await .expect("failed to read from vsock"); assert_eq!(&read_buf[..read_len], MSG); assert_eq!( write_half .write(MSG) .await .expect("failed to write to vsock"), MSG.len() ); handle.await.expect("failed to join task"); } /// This test was taken from tokio/tests/tcp_split.rs and adapted to fit the Vsock API /// /// source: https://github.com/tokio-rs/tokio/blob/fc9518b62714daac9a38b46c698b94ac5d5b1ca2/tokio/tests/tcp_split.rs #[tokio::test] #[cfg(target_os = "linux")] async fn into_split_vsock() { const MSG: &[u8] = b"split"; const PORT: u32 = 8001; let addr = VsockAddr::new(tokio_vsock::VMADDR_CID_LOCAL, PORT); let mut listener = VsockListener::bind(addr).expect("connection failed"); let handle = tokio::task::spawn(async move { let (mut stream, _) = listener .accept() .await .expect("failed to accept connection"); stream .write_all(MSG) .await .expect("failed to write to vsock from task"); let mut read_buf = [0u8; 32]; let read_len = stream .read(&mut read_buf) .await .expect("failed to read data"); assert_eq!(&read_buf[..read_len], MSG); }); let stream = VsockStream::connect(addr).await.expect("connection failed"); let (mut read_half, mut write_half) = stream.into_split(); let mut read_buf = [0u8; 32]; let read_len = read_half .read(&mut read_buf[..]) .await .expect("failed to read from vsock"); assert_eq!(&read_buf[..read_len], MSG); assert_eq!( write_half .write(MSG) .await .expect("failed to write to vsock"), MSG.len() ); handle.await.expect("failed to join task"); // Assert that the halfs can be merged together again let _ = read_half.unsplit(write_half); }