Robin Mueller
3ea3a7acb6
Some checks are pending
Rust/sat-rs/pipeline/head Build started...
- Add new shared subcrate satrs-shared to split off some shared components not expected to change very often. - Renmame `satrs-core` to `satrs`. It is expected that sat-rs will remain the primary crate, so the core information is superfluous, and core also implies stability, which will not be the case for some time.
242 lines
8.9 KiB
Rust
242 lines
8.9 KiB
Rust
//! This serves as both an integration test and an example application showcasing all major
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//! features of the TCP COBS server by performing following steps:
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//!
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//! 1. It defines both a TC receiver and a TM source which are [Sync].
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//! 2. A telemetry packet is inserted into the TM source. The packet will be handled by the
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//! TCP server after handling all TCs.
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//! 3. It instantiates the TCP server on localhost with automatic port assignment and assigns
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//! the TC receiver and TM source created previously.
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//! 4. It moves the TCP server to a different thread and calls the
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//! [TcpTmtcInCobsServer::handle_next_connection] call inside that thread
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//! 5. The main threads connects to the server, sends a test telecommand and then reads back
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//! the test telemetry insertd in to the TM source previously.
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use core::{
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sync::atomic::{AtomicBool, Ordering},
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time::Duration,
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};
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use std::{
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io::{Read, Write},
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net::{IpAddr, Ipv4Addr, SocketAddr, TcpStream},
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sync::Mutex,
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thread,
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};
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use hashbrown::HashSet;
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use satrs::{
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encoding::cobs::encode_packet_with_cobs,
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hal::std::tcp_server::{ServerConfig, TcpSpacepacketsServer, TcpTmtcInCobsServer},
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tmtc::{ReceivesTcCore, TmPacketSourceCore},
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};
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use spacepackets::{
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ecss::{tc::PusTcCreator, WritablePusPacket},
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PacketId, SpHeader,
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};
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use std::{boxed::Box, collections::VecDeque, sync::Arc, vec::Vec};
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#[derive(Default, Clone)]
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struct SyncTcCacher {
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tc_queue: Arc<Mutex<VecDeque<Vec<u8>>>>,
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}
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impl ReceivesTcCore for SyncTcCacher {
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type Error = ();
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fn pass_tc(&mut self, tc_raw: &[u8]) -> Result<(), Self::Error> {
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let mut tc_queue = self.tc_queue.lock().expect("tc forwarder failed");
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println!("Received TC: {:x?}", tc_raw);
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tc_queue.push_back(tc_raw.to_vec());
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Ok(())
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}
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}
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#[derive(Default, Clone)]
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struct SyncTmSource {
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tm_queue: Arc<Mutex<VecDeque<Vec<u8>>>>,
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}
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impl SyncTmSource {
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pub(crate) fn add_tm(&mut self, tm: &[u8]) {
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let mut tm_queue = self.tm_queue.lock().expect("locking tm queue failec");
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tm_queue.push_back(tm.to_vec());
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}
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}
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impl TmPacketSourceCore for SyncTmSource {
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type Error = ();
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fn retrieve_packet(&mut self, buffer: &mut [u8]) -> Result<usize, Self::Error> {
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let mut tm_queue = self.tm_queue.lock().expect("locking tm queue failed");
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if !tm_queue.is_empty() {
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let next_vec = tm_queue.front().unwrap();
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if buffer.len() < next_vec.len() {
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panic!(
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"provided buffer too small, must be at least {} bytes",
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next_vec.len()
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);
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}
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println!("Sending and encoding TM: {:x?}", next_vec);
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let next_vec = tm_queue.pop_front().unwrap();
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buffer[0..next_vec.len()].copy_from_slice(&next_vec);
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return Ok(next_vec.len());
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}
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Ok(0)
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}
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}
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const SIMPLE_PACKET: [u8; 5] = [1, 2, 3, 4, 5];
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const INVERTED_PACKET: [u8; 5] = [5, 4, 3, 4, 1];
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const AUTO_PORT_ADDR: SocketAddr = SocketAddr::new(IpAddr::V4(Ipv4Addr::new(127, 0, 0, 1)), 0);
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#[test]
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fn test_cobs_server() {
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let tc_receiver = SyncTcCacher::default();
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let mut tm_source = SyncTmSource::default();
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// Insert a telemetry packet which will be read back by the client at a later stage.
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tm_source.add_tm(&INVERTED_PACKET);
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let mut tcp_server = TcpTmtcInCobsServer::new(
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ServerConfig::new(AUTO_PORT_ADDR, Duration::from_millis(2), 1024, 1024),
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tm_source,
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tc_receiver.clone(),
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)
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.expect("TCP server generation failed");
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let dest_addr = tcp_server
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.local_addr()
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.expect("retrieving dest addr failed");
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let conn_handled: Arc<AtomicBool> = Default::default();
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let set_if_done = conn_handled.clone();
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// Call the connection handler in separate thread, does block.
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thread::spawn(move || {
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let result = tcp_server.handle_next_connection();
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if result.is_err() {
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panic!("handling connection failed: {:?}", result.unwrap_err());
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}
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let conn_result = result.unwrap();
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assert_eq!(conn_result.num_received_tcs, 1, "No TC received");
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assert_eq!(conn_result.num_sent_tms, 1, "No TM received");
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// Signal the main thread we are done.
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set_if_done.store(true, Ordering::Relaxed);
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});
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// Send TC to server now.
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let mut encoded_buf: [u8; 16] = [0; 16];
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let mut current_idx = 0;
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encode_packet_with_cobs(&SIMPLE_PACKET, &mut encoded_buf, &mut current_idx);
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let mut stream = TcpStream::connect(dest_addr).expect("connecting to TCP server failed");
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stream
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.write_all(&encoded_buf[..current_idx])
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.expect("writing to TCP server failed");
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// Done with writing.
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stream
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.shutdown(std::net::Shutdown::Write)
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.expect("shutting down write failed");
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let mut read_buf: [u8; 16] = [0; 16];
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let read_len = stream.read(&mut read_buf).expect("read failed");
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drop(stream);
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// 1 byte encoding overhead, 2 sentinel bytes.
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assert_eq!(read_len, 8);
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assert_eq!(read_buf[0], 0);
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assert_eq!(read_buf[read_len - 1], 0);
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let decoded_len =
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cobs::decode_in_place(&mut read_buf[1..read_len]).expect("COBS decoding failed");
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assert_eq!(decoded_len, 5);
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// Skip first sentinel byte.
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assert_eq!(&read_buf[1..1 + INVERTED_PACKET.len()], &INVERTED_PACKET);
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// A certain amount of time is allowed for the transaction to complete.
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for _ in 0..3 {
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if !conn_handled.load(Ordering::Relaxed) {
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thread::sleep(Duration::from_millis(5));
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}
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}
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if !conn_handled.load(Ordering::Relaxed) {
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panic!("connection was not handled properly");
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}
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// Check that the packet was received and decoded successfully.
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let mut tc_queue = tc_receiver
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.tc_queue
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.lock()
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.expect("locking tc queue failed");
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assert_eq!(tc_queue.len(), 1);
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assert_eq!(tc_queue.pop_front().unwrap(), &SIMPLE_PACKET);
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drop(tc_queue);
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}
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const TEST_APID_0: u16 = 0x02;
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const TEST_PACKET_ID_0: PacketId = PacketId::const_tc(true, TEST_APID_0);
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#[test]
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fn test_ccsds_server() {
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let tc_receiver = SyncTcCacher::default();
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let mut tm_source = SyncTmSource::default();
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let mut sph = SpHeader::tc_unseg(TEST_APID_0, 0, 0).unwrap();
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let verif_tm = PusTcCreator::new_simple(&mut sph, 1, 1, None, true);
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let tm_0 = verif_tm.to_vec().expect("tm generation failed");
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tm_source.add_tm(&tm_0);
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let mut packet_id_lookup = HashSet::new();
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packet_id_lookup.insert(TEST_PACKET_ID_0);
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let mut tcp_server = TcpSpacepacketsServer::new(
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ServerConfig::new(AUTO_PORT_ADDR, Duration::from_millis(2), 1024, 1024),
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tm_source,
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tc_receiver.clone(),
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Box::new(packet_id_lookup),
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)
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.expect("TCP server generation failed");
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let dest_addr = tcp_server
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.local_addr()
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.expect("retrieving dest addr failed");
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let conn_handled: Arc<AtomicBool> = Default::default();
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let set_if_done = conn_handled.clone();
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// Call the connection handler in separate thread, does block.
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thread::spawn(move || {
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let result = tcp_server.handle_next_connection();
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if result.is_err() {
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panic!("handling connection failed: {:?}", result.unwrap_err());
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}
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let conn_result = result.unwrap();
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assert_eq!(conn_result.num_received_tcs, 1);
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assert_eq!(conn_result.num_sent_tms, 1);
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set_if_done.store(true, Ordering::Relaxed);
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});
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let mut stream = TcpStream::connect(dest_addr).expect("connecting to TCP server failed");
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stream
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.set_read_timeout(Some(Duration::from_millis(10)))
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.expect("setting reas timeout failed");
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// Send ping telecommand.
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let mut sph = SpHeader::tc_unseg(TEST_APID_0, 0, 0).unwrap();
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let ping_tc = PusTcCreator::new_simple(&mut sph, 17, 1, None, true);
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let tc_0 = ping_tc.to_vec().expect("packet creation failed");
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stream
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.write_all(&tc_0)
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.expect("writing to TCP server failed");
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// Done with writing.
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stream
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.shutdown(std::net::Shutdown::Write)
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.expect("shutting down write failed");
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// Now read all the telemetry from the server.
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let mut read_buf: [u8; 16] = [0; 16];
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let mut read_len_total = 0;
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// Timeout ensures this does not block forever.
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while read_len_total < tm_0.len() {
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let read_len = stream.read(&mut read_buf).expect("read failed");
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read_len_total += read_len;
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assert_eq!(read_buf[..read_len], tm_0);
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}
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drop(stream);
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// A certain amount of time is allowed for the transaction to complete.
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for _ in 0..3 {
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if !conn_handled.load(Ordering::Relaxed) {
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thread::sleep(Duration::from_millis(5));
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}
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}
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if !conn_handled.load(Ordering::Relaxed) {
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panic!("connection was not handled properly");
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}
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// Check that TC has arrived.
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let mut tc_queue = tc_receiver.tc_queue.lock().unwrap();
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assert_eq!(tc_queue.len(), 1);
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assert_eq!(tc_queue.pop_front().unwrap(), tc_0);
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}
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