use crate::exec; use crate::exit_codes::{merge_exitcodes, ExitCode}; use crate::fshelper; use crate::internal::{opts::FdOptions, osstr_to_bytes, MAX_BUFFER_LENGTH}; use crate::output; use std::borrow::Cow; use std::ffi::OsStr; use std::fs::{FileType, Metadata}; use std::io; use std::path::{Path, PathBuf}; use std::process; use std::sync::atomic::{AtomicBool, Ordering}; use std::sync::mpsc::{channel, Receiver, Sender}; use std::sync::{Arc, Mutex}; use std::thread; use std::time; use ignore::overrides::OverrideBuilder; use ignore::{self, WalkBuilder}; use regex::bytes::Regex; /// The receiver thread can either be buffering results or directly streaming to the console. enum ReceiverMode { /// Receiver is still buffering in order to sort the results, if the search finishes fast /// enough. Buffering, /// Receiver is directly printing results to the output. Streaming, } /// The Worker threads can result in a valid entry having PathBuf or an error. pub enum WorkerResult { Entry(PathBuf), Error(ignore::Error), } /// Recursively scan the given search path for files / pathnames matching the pattern. /// /// If the `--exec` argument was supplied, this will create a thread pool for executing /// jobs in parallel from a given command line and the discovered paths. Otherwise, each /// path will simply be written to standard output. pub fn scan(path_vec: &[PathBuf], pattern: Arc, config: Arc) -> ExitCode { let mut path_iter = path_vec.iter(); let first_path_buf = path_iter .next() .expect("Error: Path vector can not be empty"); let (tx, rx) = channel(); let mut override_builder = OverrideBuilder::new(first_path_buf.as_path()); for pattern in &config.exclude_patterns { let res = override_builder.add(pattern); if res.is_err() { print_error_and_exit!("Malformed exclude pattern '{}'", pattern); } } let overrides = override_builder.build().unwrap_or_else(|_| { print_error_and_exit!("Mismatch in exclude patterns"); }); let mut walker = WalkBuilder::new(first_path_buf.as_path()); walker .hidden(config.ignore_hidden) .ignore(config.read_fdignore) .parents(config.read_fdignore || config.read_vcsignore) .git_ignore(config.read_vcsignore) .git_global(config.read_vcsignore) .git_exclude(config.read_vcsignore) .overrides(overrides) .follow_links(config.follow_links) // No need to check for supported platforms, option is unavailable on unsupported ones .same_file_system(config.one_file_system) .max_depth(config.max_depth); if config.read_fdignore { walker.add_custom_ignore_filename(".fdignore"); } for ignore_file in &config.ignore_files { let result = walker.add_ignore(ignore_file); match result { Some(ignore::Error::Partial(_)) => (), Some(err) => { print_error!( "{}", format!( "Malformed pattern in custom ignore file. {}.", err.to_string() ) ); } None => (), } } for path_entry in path_iter { walker.add(path_entry.as_path()); } let parallel_walker = walker.threads(config.threads).build_parallel(); let wants_to_quit = Arc::new(AtomicBool::new(false)); if config.ls_colors.is_some() && config.command.is_none() { let wq = Arc::clone(&wants_to_quit); ctrlc::set_handler(move || { if wq.load(Ordering::Relaxed) { // Ctrl-C has been pressed twice, exit NOW process::exit(ExitCode::KilledBySigint.into()); } else { wq.store(true, Ordering::Relaxed); } }) .unwrap(); } // Spawn the thread that receives all results through the channel. let receiver_thread = spawn_receiver(&config, &wants_to_quit, rx); // Spawn the sender threads. spawn_senders(&config, &wants_to_quit, pattern, parallel_walker, tx); // Wait for the receiver thread to print out all results. let exit_code = receiver_thread.join().unwrap(); if wants_to_quit.load(Ordering::Relaxed) { process::exit(ExitCode::KilledBySigint.into()); } exit_code } fn spawn_receiver( config: &Arc, wants_to_quit: &Arc, rx: Receiver, ) -> thread::JoinHandle { let config = Arc::clone(config); let wants_to_quit = Arc::clone(wants_to_quit); let show_filesystem_errors = config.show_filesystem_errors; let threads = config.threads; thread::spawn(move || { // This will be set to `Some` if the `--exec` argument was supplied. if let Some(ref cmd) = config.command { if cmd.in_batch_mode() { exec::batch(rx, cmd, show_filesystem_errors) } else { let shared_rx = Arc::new(Mutex::new(rx)); let out_perm = Arc::new(Mutex::new(())); // Each spawned job will store it's thread handle in here. let mut handles = Vec::with_capacity(threads); for _ in 0..threads { let rx = Arc::clone(&shared_rx); let cmd = Arc::clone(cmd); let out_perm = Arc::clone(&out_perm); // Spawn a job thread that will listen for and execute inputs. let handle = thread::spawn(move || exec::job(rx, cmd, out_perm, show_filesystem_errors)); // Push the handle of the spawned thread into the vector for later joining. handles.push(handle); } // Wait for all threads to exit before exiting the program. let mut results: Vec = Vec::new(); for h in handles { results.push(h.join().unwrap()); } merge_exitcodes(results) } } else { let start = time::Instant::now(); let mut buffer = vec![]; // Start in buffering mode let mut mode = ReceiverMode::Buffering; // Maximum time to wait before we start streaming to the console. let max_buffer_time = config .max_buffer_time .unwrap_or_else(|| time::Duration::from_millis(100)); let stdout = io::stdout(); let mut stdout = stdout.lock(); let mut num_results = 0; for worker_result in rx { match worker_result { WorkerResult::Entry(value) => { match mode { ReceiverMode::Buffering => { buffer.push(value); // Have we reached the maximum buffer size or maximum buffering time? if buffer.len() > MAX_BUFFER_LENGTH || time::Instant::now() - start > max_buffer_time { // Flush the buffer for v in &buffer { output::print_entry( &mut stdout, v, &config, &wants_to_quit, ); } buffer.clear(); // Start streaming mode = ReceiverMode::Streaming; } } ReceiverMode::Streaming => { output::print_entry(&mut stdout, &value, &config, &wants_to_quit); } } num_results += 1; } WorkerResult::Error(err) => { if show_filesystem_errors { print_error!("{}", err); } } } if let Some(max_results) = config.max_results { if num_results >= max_results { break; } } } // If we have finished fast enough (faster than max_buffer_time), we haven't streamed // anything to the console, yet. In this case, sort the results and print them: if !buffer.is_empty() { buffer.sort(); for value in buffer { output::print_entry(&mut stdout, &value, &config, &wants_to_quit); } } ExitCode::Success } }) } pub enum DirEntry { Normal(ignore::DirEntry), BrokenSymlink(PathBuf), } impl DirEntry { pub fn path(&self) -> &Path { match self { DirEntry::Normal(e) => e.path(), DirEntry::BrokenSymlink(pathbuf) => pathbuf.as_path(), } } pub fn file_type(&self) -> Option { match self { DirEntry::Normal(e) => e.file_type(), DirEntry::BrokenSymlink(pathbuf) => { pathbuf.symlink_metadata().map(|m| m.file_type()).ok() } } } pub fn metadata(&self) -> Option { match self { DirEntry::Normal(e) => e.metadata().ok(), DirEntry::BrokenSymlink(_) => None, } } } fn spawn_senders( config: &Arc, wants_to_quit: &Arc, pattern: Arc, parallel_walker: ignore::WalkParallel, tx: Sender, ) { parallel_walker.run(|| { let config = Arc::clone(config); let pattern = Arc::clone(&pattern); let tx_thread = tx.clone(); let wants_to_quit = Arc::clone(wants_to_quit); Box::new(move |entry_o| { if wants_to_quit.load(Ordering::Relaxed) { return ignore::WalkState::Quit; } let entry = match entry_o { Ok(ref e) if e.depth() == 0 => { // Skip the root directory entry. return ignore::WalkState::Continue; } Ok(e) => DirEntry::Normal(e), Err(ignore::Error::WithPath { path, err: inner_err, }) => match inner_err.as_ref() { ignore::Error::Io(io_error) if io_error.kind() == io::ErrorKind::NotFound && path .symlink_metadata() .ok() .map_or(false, |m| m.file_type().is_symlink()) => { DirEntry::BrokenSymlink(path) } _ => { tx_thread .send(WorkerResult::Error(ignore::Error::WithPath { path, err: inner_err, })) .unwrap(); return ignore::WalkState::Continue; } }, Err(err) => { tx_thread.send(WorkerResult::Error(err)).unwrap(); return ignore::WalkState::Continue; } }; // Check the name first, since it doesn't require metadata let entry_path = entry.path(); let search_str: Cow = if config.search_full_path { match fshelper::path_absolute_form(entry_path) { Ok(path_abs_buf) => Cow::Owned(path_abs_buf.as_os_str().to_os_string()), Err(_) => { print_error_and_exit!("Unable to retrieve absolute path."); } } } else { match entry_path.file_name() { Some(filename) => Cow::Borrowed(filename), None => unreachable!( "Encountered file system entry without a file name. This should only \ happen for paths like 'foo/bar/..' or '/' which are not supposed to \ appear in a file system traversal." ), } }; if !pattern.is_match(&osstr_to_bytes(search_str.as_ref())) { return ignore::WalkState::Continue; } // Filter out unwanted extensions. if let Some(ref exts_regex) = config.extensions { if let Some(path_str) = entry_path.file_name() { if !exts_regex.is_match(&osstr_to_bytes(path_str)) { return ignore::WalkState::Continue; } } else { return ignore::WalkState::Continue; } } // Filter out unwanted file types. if let Some(ref file_types) = config.file_types { if let Some(ref entry_type) = entry.file_type() { if (!file_types.files && entry_type.is_file()) || (!file_types.directories && entry_type.is_dir()) || (!file_types.symlinks && entry_type.is_symlink()) || (file_types.executables_only && !entry .metadata() .map(|m| fshelper::is_executable(&m)) .unwrap_or(false)) || (file_types.empty_only && !fshelper::is_empty(&entry)) || !(entry_type.is_file() || entry_type.is_dir() || entry_type.is_symlink()) { return ignore::WalkState::Continue; } } else { return ignore::WalkState::Continue; } } // Filter out unwanted sizes if it is a file and we have been given size constraints. if !config.size_constraints.is_empty() { if entry_path.is_file() { if let Ok(metadata) = entry_path.metadata() { let file_size = metadata.len(); if config .size_constraints .iter() .any(|sc| !sc.is_within(file_size)) { return ignore::WalkState::Continue; } } else { return ignore::WalkState::Continue; } } else { return ignore::WalkState::Continue; } } // Filter out unwanted modification times if !config.time_constraints.is_empty() { let mut matched = false; if let Ok(metadata) = entry_path.metadata() { if let Ok(modified) = metadata.modified() { matched = config .time_constraints .iter() .all(|tf| tf.applies_to(&modified)); } } if !matched { return ignore::WalkState::Continue; } } let send_result = tx_thread.send(WorkerResult::Entry(entry_path.to_owned())); if send_result.is_err() { return ignore::WalkState::Quit; } ignore::WalkState::Continue }) }); }