use std::{ fs::File, mem::size_of, os::unix::prelude::FileExt, path::PathBuf, sync::{atomic::AtomicBool, mpsc, Arc, Mutex, Weak}, thread::JoinHandle, }; use klog_types::{AllocatorLog, MMLogChannel}; use log::info; use crate::backend::{ loader::Symbol, monitor::{logset::LogSet, ObjectWrapper}, BackendData, }; #[derive(Debug)] pub struct MMLogMonitor { channel_symbol: Option, shared_data: Arc>, /// All threads spawned by the mm log monitor. threads: Mutex>>, stop_child_threads: AtomicBool, self_ref: Weak, mm_log_receiver: Mutex>, mm_log_sender: mpsc::Sender, } impl MMLogMonitor { pub(crate) fn new(shared_data: Arc>) -> Arc { let guard = shared_data.lock().unwrap(); let mm_log_buffer_symbol: Option = guard .kernel_metadata .as_ref() .map(|km| { km.sym_collection() .find_by_name("__MM_ALLOCATOR_LOG_CHANNEL") .map(|s| s.clone()) }) .flatten(); drop(guard); info!("mm_log_buffer_symbol: {:?}", mm_log_buffer_symbol); let mm_log_worker_mpsc: ( mpsc::Sender, mpsc::Receiver, ) = mpsc::channel::(); let r = Self { channel_symbol: mm_log_buffer_symbol, shared_data, threads: Mutex::new(Vec::new()), stop_child_threads: AtomicBool::new(false), self_ref: Weak::new(), mm_log_receiver: Mutex::new(mm_log_worker_mpsc.1), mm_log_sender: mm_log_worker_mpsc.0, }; let r = Arc::new(r); unsafe { let self_ref = Arc::downgrade(&r); let r_ptr = r.as_ref() as *const Self as *mut Self; (*r_ptr).self_ref = self_ref; } return r; } pub fn run(&self) { info!("MMLogMonitor::run()"); self.create_threads(); let mut logs_set = LogSet::>::new("mm_allocator_log".to_string(), None); self.handle_logs(&mut logs_set); // std::thread::sleep(std::time::Duration::from_micros(50)); } fn handle_logs(&self, logs_set: &mut LogSet>) { let mut last_cnt = 0; let mut last_time = std::time::Instant::now(); let mm_log_receiver = self.mm_log_receiver.lock().unwrap(); loop { let logs = mm_log_receiver.recv(); if logs.is_err() { return; } let logs = logs.unwrap(); for log in logs.logs { logs_set.insert(log.id as usize, log); } let x = logs_set.len(); // info!("logs_set.len(): {}", x); let current_time = std::time::Instant::now(); if current_time.duration_since(last_time).as_secs() >= 1 { info!("memory log rate: {} logs/s", x - last_cnt); last_cnt = x; last_time = current_time; } } } // fn show_speed(&self, ) fn create_threads(&self) { let km = self .shared_data .lock() .unwrap() .kmem_path .clone() .expect("DragonOS memory map file not specified."); let monitor_weak = self.self_ref.clone(); let handle = std::thread::spawn(move || { let mut monitor_thread = MMMonitorThread::new(monitor_weak, PathBuf::from(km)); monitor_thread.run(); }); self.threads.lock().unwrap().push(handle); } } #[derive(Debug)] struct MMMonitorThread { mm_log_monitor: Weak, kmem_path: PathBuf, } impl MMMonitorThread { /// Constructs a new instance of [`MMMonitorThread`]. /// /// ## Parameters /// /// - `mm_log_monitor`: The [`MMLogMonitor`] instance. /// - `kmem_path`: The path to the kernel memory file. pub fn new(mm_log_monitor: Weak, kmem_path: PathBuf) -> Self { Self { mm_log_monitor, kmem_path, } } pub fn run(&mut self) { info!("MMMonitorThread::run(): kmem_path: {:?}", self.kmem_path); let mut kmem_file = { let mut file: File; loop { let f = self.open_kmem_file(); if f.is_ok() { file = f.unwrap(); break; } else { log::error!("Failed to open kmem file, error: {:?}", f.unwrap_err()); std::thread::sleep(std::time::Duration::from_secs(1)); } } file }; info!("Channel header loaded!"); let channel_header: ObjectWrapper> = self.load_header(&mut kmem_file); // 循环读取 self.process_logs(&mut kmem_file, &channel_header); } /// 处理内核内存分配日志 fn process_logs(&self, kmem_file: &mut File, channel_header: &ObjectWrapper>) { let cap = channel_header.capacity; let mut buf = vec![0u8; (cap * channel_header.slot_size as u64) as usize]; let symbol = self .mm_log_channel_symbol() .expect("Failed to get memory log channel symbol."); let sym_offset = symbol.memory_offset(); let slots_offset = channel_header.slots_offset + sym_offset; let sender = self.mm_log_monitor.upgrade().unwrap().mm_log_sender.clone(); loop { if self.should_stop() { break; } let r = kmem_file .read_at(&mut buf, slots_offset) .expect("Failed to read kmem file."); assert!(r == buf.len()); let mut logs = Vec::new(); for chunck in buf.chunks(channel_header.slot_size as usize) { let log_item = { let log: Option> = ObjectWrapper::new(&chunck[0..channel_header.element_size as usize]); let log: ObjectWrapper = log.unwrap(); if log.is_valid() { Some(log) } else { None } }; if let Some(log_item) = log_item { logs.push(log_item); } } // 收集所有校验和正确的日志 // info!("valid_cnt: {}, invalid_cnt: {}", valid_cnt, invalid_cnt); // info!("to send {} logs", logs.len()); if !logs.is_empty() { sender.send(MMLogWorkerResult::new(logs)).unwrap(); } } } fn open_kmem_file(&self) -> std::io::Result { std::fs::OpenOptions::new().read(true).open(&self.kmem_path) } fn load_header(&self, kmem_file: &mut File) -> ObjectWrapper> { let mut buf = [0u8; size_of::>()]; let symbol = self .mm_log_channel_symbol() .expect("Failed to get memory log channel symbol."); let sym_offset = symbol.memory_offset(); let channel_header: Option>>; loop { let _r = kmem_file.read_at(&mut buf, sym_offset); let header: ObjectWrapper> = ObjectWrapper::new(&buf).expect("Failed to parse MMLogChannel header."); if header.magic == MMLogChannel::<1>::MM_LOG_CHANNEL_MAGIC { info!("channel_header: {:?}", header); channel_header = Some(header); break; } else { info!("MM Log Channel not found... Maybe the kernel not started? Or the kernel version is not supported?"); } std::thread::sleep(std::time::Duration::from_secs(1)); } return channel_header.unwrap(); } /// Get the symbol of the memory log channel. fn mm_log_channel_symbol(&self) -> Option { self.mm_log_monitor .upgrade() .unwrap() .channel_symbol .clone() } /// Check if the monitor worker thread should stop. fn should_stop(&self) -> bool { self.mm_log_monitor .upgrade() .map(|mm_log_monitor| { mm_log_monitor .stop_child_threads .load(std::sync::atomic::Ordering::Relaxed) }) .unwrap_or(true) } } /// 内存日志监视器工作线程处理的结果 #[derive(Debug)] struct MMLogWorkerResult { logs: Vec>, } impl MMLogWorkerResult { /// 创建一个新的内存日志监视器工作线程处理的结果 /// /// ## 参数 /// /// - `logs`:处理的日志 pub fn new(logs: Vec>) -> Self { Self { logs } } }