use aeron_driver_sys::*; use aeron_rs::client::cnc_descriptor; use aeron_rs::client::concurrent::atomic_buffer::AtomicBuffer; use aeron_rs::client::concurrent::ring_buffer::ManyToOneRingBuffer; use aeron_rs::util::IndexT; use memmap::MmapOptions; use std::ffi::{c_void, CString}; use std::fs::OpenOptions; use std::path::PathBuf; use std::sync::atomic::{AtomicBool, Ordering}; use std::time::Duration; use std::{ptr, thread}; use tempfile::tempdir; static RUNNING: AtomicBool = AtomicBool::new(false); unsafe extern "C" fn termination_hook(_state: *mut c_void) { RUNNING.store(false, Ordering::SeqCst); } unsafe extern "C" fn termination_validation( _state: *mut c_void, _data: *mut u8, _length: i32, ) -> bool { true } fn driver_thread(aeron_dir: PathBuf) { // Code largely ripped from `aeronmd`. Extra bits for termination and // termination validation added as necessary, and far coarser error handling. let mut context: *mut aeron_driver_context_t = ptr::null_mut(); let mut driver: *mut aeron_driver_t = ptr::null_mut(); let context_init = unsafe { aeron_driver_context_init(&mut context) }; assert!(context_init >= 0); let path_bytes = aeron_dir.to_str().unwrap().as_bytes(); let c_string = CString::new(path_bytes).unwrap(); let aeron_dir = unsafe { aeron_driver_context_set_dir(context, c_string.into_raw()) }; assert!(aeron_dir >= 0); let term_hook = unsafe { aeron_driver_context_set_driver_termination_hook( context, Some(termination_hook), ptr::null_mut(), ) }; assert!(term_hook >= 0); let term_validation_hook = unsafe { aeron_driver_context_set_driver_termination_validator( context, Some(termination_validation), ptr::null_mut(), ) }; assert!(term_validation_hook >= 0); let delete_dir = unsafe { aeron_driver_context_set_dir_delete_on_start(context, true) }; assert!(delete_dir >= 0); let driver_init = unsafe { aeron_driver_init(&mut driver, context) }; assert!(driver_init >= 0); let driver_start = unsafe { aeron_driver_start(driver, true) }; assert!(driver_start >= 0); RUNNING.store(true, Ordering::SeqCst); while RUNNING.load(Ordering::SeqCst) { unsafe { aeron_driver_main_idle_strategy(driver, aeron_driver_main_do_work(driver)) }; } unsafe { aeron_driver_close(driver) }; unsafe { aeron_driver_context_close(context) }; } #[test] fn cnc_terminate() { let dir = tempdir().unwrap().into_path(); // Start up the media driver let driver_dir = dir.clone(); let driver_thread = thread::Builder::new() .name("cnc_terminate__driver_thread".to_string()) .spawn(|| driver_thread(driver_dir)) .unwrap(); // Sleep a moment to let the media driver get set up thread::sleep(Duration::from_millis(500)); assert_eq!(RUNNING.load(Ordering::SeqCst), true); // Write to the CnC file to attempt termination let cnc = dir.join(cnc_descriptor::CNC_FILE); let file = OpenOptions::new() .read(true) .write(true) .open(&cnc) .expect("Unable to open CnC file"); let mut mmap = unsafe { MmapOptions::default().map_mut(&file) }.expect("Unable to mmap CnC file"); // When creating the buffer, we need to offset by the CnC metadata let cnc_metadata_len = cnc_descriptor::META_DATA_LENGTH; // Read metadata to get buffer length let buffer_len = { let atomic_buffer = AtomicBuffer::wrap(&mut mmap); let metadata = atomic_buffer .overlay::(0) .unwrap(); metadata.to_driver_buffer_length }; let buffer_end = cnc_metadata_len + buffer_len as usize; let atomic_buffer = AtomicBuffer::wrap(&mut mmap[cnc_metadata_len..buffer_end]); let mut ring_buffer = ManyToOneRingBuffer::wrap(atomic_buffer).expect("Improperly sized buffer"); // 20 bytes: Client ID (8), correlation ID (8), token length (4) let mut terminate_bytes = vec![0u8; 20]; let terminate_len = terminate_bytes.len(); let mut source_buffer = AtomicBuffer::wrap(&mut terminate_bytes); let client_id = ring_buffer.next_correlation_id(); source_buffer.put_i64_ordered(0, client_id).unwrap(); source_buffer.put_i64_ordered(8, -1).unwrap(); let term_id: i32 = 0x0E; ring_buffer .write(term_id, &source_buffer, 0, terminate_len as IndexT) .unwrap(); // Wait for the driver to finish // TODO: Timeout, and then set `RUNNING` manually driver_thread .join() .expect("Driver thread panicked during execution"); assert_eq!(RUNNING.load(Ordering::SeqCst), false); }