2023-01-11 10:30:03 +01:00
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// TODO: Refactor this to also test the STD impl using mpsc
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#[cfg(feature = "crossbeam")]
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pub mod crossbeam_test {
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use hashbrown::HashMap;
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use satrs_core::pool::{LocalPool, PoolCfg, PoolProvider, SharedPool};
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use satrs_core::pus::verification::{
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CrossbeamVerifSender, FailParams, RequestId, VerificationReporterCfg,
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VerificationReporterWithSender,
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};
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use satrs_core::seq_count::SeqCountProviderSyncClonable;
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use spacepackets::ecss::{EcssEnumU16, EcssEnumU8, PusPacket};
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use spacepackets::tc::{PusTc, PusTcSecondaryHeader};
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use spacepackets::tm::PusTm;
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use spacepackets::SpHeader;
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use std::sync::{Arc, RwLock};
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use std::thread;
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use std::time::Duration;
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const TEST_APID: u16 = 0x03;
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const FIXED_STAMP: [u8; 7] = [0; 7];
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const PACKETS_SENT: u8 = 8;
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/// This test also shows how the verification report could be used in a multi-threaded context,
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/// wrapping it into an [Arc] and [Mutex] and then passing it to two threads.
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///
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/// - The first thread generates a acceptance, a start, two steps and one completion report
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/// - The second generates an acceptance and start success report and a completion failure
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/// - The third thread is the verification receiver. In the test case, it verifies the other two
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/// threads have sent the correct expected verification reports
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#[test]
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fn test_shared_reporter() {
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// We use a synced sequence count provider here because both verification reporters have the
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// the same APID. If they had distinct APIDs, the more correct approach would be to have
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// each reporter have an own sequence count provider.
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let cfg = VerificationReporterCfg::new(
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TEST_APID,
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Box::new(SeqCountProviderSyncClonable::default()),
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2023-03-09 09:03:14 +01:00
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Box::new(SeqCountProviderSyncClonable::default()),
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2023-01-11 10:30:03 +01:00
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1,
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2,
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8,
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)
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.unwrap();
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// Shared pool object to store the verification PUS telemetry
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let pool_cfg = PoolCfg::new(vec![(10, 32), (10, 64), (10, 128), (10, 1024)]);
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let shared_tm_pool: SharedPool =
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Arc::new(RwLock::new(Box::new(LocalPool::new(pool_cfg.clone()))));
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let shared_tc_pool_0 = Arc::new(RwLock::new(LocalPool::new(pool_cfg)));
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let shared_tc_pool_1 = shared_tc_pool_0.clone();
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let (tx, rx) = crossbeam_channel::bounded(5);
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2023-02-28 14:01:40 +01:00
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let sender =
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CrossbeamVerifSender::new(0, "verif_sender", shared_tm_pool.clone(), tx.clone());
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2023-01-11 10:30:03 +01:00
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let mut reporter_with_sender_0 =
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VerificationReporterWithSender::new(&cfg, Box::new(sender));
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let mut reporter_with_sender_1 = reporter_with_sender_0.clone();
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// For test purposes, we retrieve the request ID from the TCs and pass them to the receiver
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// tread.
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let req_id_0;
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let req_id_1;
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let (tx_tc_0, rx_tc_0) = crossbeam_channel::bounded(3);
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let (tx_tc_1, rx_tc_1) = crossbeam_channel::bounded(3);
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{
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let mut tc_guard = shared_tc_pool_0.write().unwrap();
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let mut sph = SpHeader::tc_unseg(TEST_APID, 0, 0).unwrap();
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let tc_header = PusTcSecondaryHeader::new_simple(17, 1);
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let pus_tc_0 = PusTc::new(&mut sph, tc_header, None, true);
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req_id_0 = RequestId::new(&pus_tc_0);
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let (addr, mut buf) = tc_guard.free_element(pus_tc_0.len_packed()).unwrap();
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pus_tc_0.write_to_bytes(&mut buf).unwrap();
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tx_tc_0.send(addr).unwrap();
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let mut sph = SpHeader::tc_unseg(TEST_APID, 1, 0).unwrap();
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let tc_header = PusTcSecondaryHeader::new_simple(5, 1);
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let pus_tc_1 = PusTc::new(&mut sph, tc_header, None, true);
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req_id_1 = RequestId::new(&pus_tc_1);
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let (addr, mut buf) = tc_guard.free_element(pus_tc_0.len_packed()).unwrap();
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pus_tc_1.write_to_bytes(&mut buf).unwrap();
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tx_tc_1.send(addr).unwrap();
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}
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let verif_sender_0 = thread::spawn(move || {
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let mut tc_buf: [u8; 1024] = [0; 1024];
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let tc_addr = rx_tc_0
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.recv_timeout(Duration::from_millis(20))
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.expect("Receive timeout");
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let tc_len;
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{
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let mut tc_guard = shared_tc_pool_0.write().unwrap();
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let pg = tc_guard.read_with_guard(tc_addr);
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let buf = pg.read().unwrap();
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tc_len = buf.len();
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tc_buf[0..tc_len].copy_from_slice(buf);
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}
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let (_tc, _) = PusTc::from_bytes(&tc_buf[0..tc_len]).unwrap();
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let accepted_token;
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let token = reporter_with_sender_0.add_tc_with_req_id(req_id_0);
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accepted_token = reporter_with_sender_0
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2023-01-21 13:52:21 +01:00
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.acceptance_success(token, Some(&FIXED_STAMP))
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2023-01-11 10:30:03 +01:00
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.expect("Acceptance success failed");
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// Do some start handling here
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let started_token;
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started_token = reporter_with_sender_0
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2023-01-21 13:52:21 +01:00
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.start_success(accepted_token, Some(&FIXED_STAMP))
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2023-01-11 10:30:03 +01:00
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.expect("Start success failed");
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// Do some step handling here
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reporter_with_sender_0
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2023-01-21 13:52:21 +01:00
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.step_success(&started_token, Some(&FIXED_STAMP), EcssEnumU8::new(0))
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2023-01-11 10:30:03 +01:00
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.expect("Start success failed");
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// Finish up
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reporter_with_sender_0
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2023-01-21 13:52:21 +01:00
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.step_success(&started_token, Some(&FIXED_STAMP), EcssEnumU8::new(1))
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2023-01-11 10:30:03 +01:00
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.expect("Start success failed");
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reporter_with_sender_0
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2023-01-21 13:52:21 +01:00
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.completion_success(started_token, Some(&FIXED_STAMP))
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2023-01-11 10:30:03 +01:00
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.expect("Completion success failed");
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});
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let verif_sender_1 = thread::spawn(move || {
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let mut tc_buf: [u8; 1024] = [0; 1024];
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let tc_addr = rx_tc_1
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.recv_timeout(Duration::from_millis(20))
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.expect("Receive timeout");
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let tc_len;
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{
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let mut tc_guard = shared_tc_pool_1.write().unwrap();
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let pg = tc_guard.read_with_guard(tc_addr);
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let buf = pg.read().unwrap();
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tc_len = buf.len();
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tc_buf[0..tc_len].copy_from_slice(buf);
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}
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let (tc, _) = PusTc::from_bytes(&tc_buf[0..tc_len]).unwrap();
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let token = reporter_with_sender_1.add_tc(&tc);
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let accepted_token = reporter_with_sender_1
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2023-01-21 13:52:21 +01:00
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.acceptance_success(token, Some(&FIXED_STAMP))
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2023-01-11 10:30:03 +01:00
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.expect("Acceptance success failed");
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let started_token = reporter_with_sender_1
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2023-01-21 13:52:21 +01:00
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.start_success(accepted_token, Some(&FIXED_STAMP))
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2023-01-11 10:30:03 +01:00
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.expect("Start success failed");
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let fail_code = EcssEnumU16::new(2);
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2023-01-21 13:52:21 +01:00
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let params = FailParams::new(Some(&FIXED_STAMP), &fail_code, None);
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2023-01-11 10:30:03 +01:00
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reporter_with_sender_1
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.completion_failure(started_token, params)
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.expect("Completion success failed");
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});
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let verif_receiver = thread::spawn(move || {
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let mut packet_counter = 0;
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let mut tm_buf: [u8; 1024] = [0; 1024];
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let mut verif_map = HashMap::new();
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while packet_counter < PACKETS_SENT {
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let verif_addr = rx
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.recv_timeout(Duration::from_millis(50))
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.expect("Packet reception timeout");
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let tm_len;
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{
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let mut rg = shared_tm_pool.write().expect("Error locking shared pool");
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let store_guard = rg.read_with_guard(verif_addr);
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let slice = store_guard.read().expect("Error reading TM slice");
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tm_len = slice.len();
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tm_buf[0..tm_len].copy_from_slice(slice);
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}
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let (pus_tm, _) = PusTm::from_bytes(&tm_buf[0..tm_len], 7)
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.expect("Error reading verification TM");
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let req_id = RequestId::from_bytes(
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&pus_tm.source_data().expect("Invalid TM source data")
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[0..RequestId::SIZE_AS_BYTES],
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)
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.unwrap();
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if !verif_map.contains_key(&req_id) {
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let mut content = Vec::new();
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content.push(pus_tm.subservice());
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verif_map.insert(req_id, content);
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} else {
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let content = verif_map.get_mut(&req_id).unwrap();
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content.push(pus_tm.subservice())
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}
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packet_counter += 1;
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}
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for (req_id, content) in verif_map {
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if req_id == req_id_1 {
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assert_eq!(content[0], 1);
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assert_eq!(content[1], 3);
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assert_eq!(content[2], 8);
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} else if req_id == req_id_0 {
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assert_eq!(content[0], 1);
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assert_eq!(content[1], 3);
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assert_eq!(content[2], 5);
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assert_eq!(content[3], 5);
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assert_eq!(content[4], 7);
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} else {
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panic!("Unexpected request ID {:?}", req_id);
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}
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}
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});
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verif_sender_0.join().expect("Joining thread 0 failed");
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verif_sender_1.join().expect("Joining thread 1 failed");
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verif_receiver.join().expect("Joining thread 2 failed");
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}
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}
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