# # threads.py: anaconda thread management # # Copyright (C) 2012-2023 # Red Hat, Inc. All rights reserved. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # import threading from pyanaconda.anaconda_loggers import get_module_logger log = get_module_logger(__name__) _WORKER_THREAD_PREFIX = "AnaWorkerThread" class ThreadManager(object): """A singleton class for managing threads and processes. Notes: THE INSTANCE HAS TO BE CREATED IN THE MAIN THREAD! This manager makes one assumption that contradicts python's threading module documentation. In this class, we assume that thread names are unique and meaningful. This is an okay assumption for us to make given that anaconda is only ever going to have a handful of special purpose threads. """ def __init__(self): self._objs = {} self._objs_lock = threading.RLock() self._errors = {} self._errors_lock = threading.RLock() def __call__(self): return self def add(self, obj): """Given a Thread or Process object, add it to the list of known objects and start it. It is assumed that obj.name is unique and descriptive. """ # we need to lock the thread dictionary when adding a new thread, # so that callers can't get & join threads that are not yet started with self._objs_lock: if obj.name in self._objs: raise KeyError("Cannot add thread '%s', a thread with the same name already running" % obj.name) self._objs[obj.name] = obj obj.start() return obj.name def add_thread(self, *args, **kwargs): """Add an AnacondaThread object""" thread = AnacondaThread(*args, **kwargs) self.add(thread) def remove(self, name): """Removes a thread from the list of known objects. This should only be called when a thread exits, or there will be no way to get a handle on it. """ with self._objs_lock: self._objs.pop(name) def exists(self, name): """Determine if a thread or process exists with the given name.""" # thread in the ThreadManager only officially exists once started with self._objs_lock: return name in self._objs def get(self, name): """Given an object name, see if it exists and return the object. Return None if no such object exists. Additionally, this method will re-raise any uncaught exception in the thread. """ # without the lock it would be possible to get & join # a thread that was not yet started with self._objs_lock: obj = self._objs.get(name) if obj: self.raise_if_error(name) return obj def wait(self, name): """Wait for the thread to exit and if the thread exited with an error re-raise it here. """ ret_val = True # we don't need a lock here, # because get() acquires it itself try: self.get(name).join() except AttributeError: ret_val = False # - if there is a thread object for the given name, # we join it # - if there is not a thread object for the given name, # we get None, try to join it, suppress the AttributeError # and return immediately self.raise_if_error(name) # return True if we waited for the thread, False otherwise return ret_val def wait_all(self): """Wait for all threads to exit and if there was an error re-raise it. """ with self._objs_lock: names = list(self._objs.keys()) for name in names: if self.get(name) == threading.current_thread(): continue log.debug("Waiting for thread %s to exit", name) self.wait(name) if self.any_errors: with self._errors_lock: thread_names = ", ".join(thread_name for thread_name in self._errors.keys() if self._errors[thread_name]) msg = "Unhandled errors from the following threads detected: %s" % thread_names raise RuntimeError(msg) def set_error(self, name, *exc_info): """Set the error data for a thread The exception data is expected to be the tuple from sys.exc_info() """ with self._errors_lock: self._errors[name] = exc_info @property def any_errors(self): """Return True of there have been any errors in any threads """ with self._errors_lock: return any(self._errors.values()) def raise_if_error(self, name): """If a thread has failed due to an exception, raise it into the main thread and remove it from errors. """ if name not in self._errors: # no errors found for the thread return with self._errors_lock: exc_info = self._errors.pop(name) if exc_info: raise exc_info[1] def in_main_thread(self): """Return True if it is run in the main thread.""" return threading.current_thread() is threading.main_thread() @property def running(self): """ Return the number of running threads. :returns: number of running threads :rtype: int """ with self._objs_lock: return len(self._objs) @property def names(self): """ Return the names of the running threads. :returns: list of thread names :rtype: list of strings """ with self._objs_lock: return list(self._objs.keys()) def wait_for_error_threads(self): """ Waits for all threads that caused exceptions. In other words, waits for exception handling (possibly interactive) to be finished. """ with self._errors_lock: for thread_name in self._errors.keys(): thread = self._objs[thread_name] thread.join() class AnacondaThread(threading.Thread): """A threading.Thread subclass that exists only for a couple purposes: (1) Make exceptions that happen in a thread invoke our exception handling code as well. Otherwise, threads will silently die and we are doing a lot of complicated code in them now. (2) Remove themselves from the thread manager when completed. (3) All created threads are made daemonic, which means anaconda will quit when the main process is killed. """ # class-wide dictionary ensuring unique thread names _prefix_thread_counts = dict() def __init__(self, *args, **kwargs): # if neither name nor prefix is given, use the worker prefix if "name" not in kwargs and "prefix" not in kwargs: kwargs["prefix"] = _WORKER_THREAD_PREFIX # if prefix is specified, use it to construct new thread name prefix = kwargs.pop("prefix", None) if prefix: thread_num = self._prefix_thread_counts.get(prefix, 0) + 1 self._prefix_thread_counts[prefix] = thread_num kwargs["name"] = prefix + str(thread_num) if "fatal" in kwargs: self._fatal = kwargs.pop("fatal") else: self._fatal = True self._target_started_callback = kwargs.pop("target_started", None) self._target_stopped_callback = kwargs.pop("target_stopped", None) self._target_failed_callback = kwargs.pop("target_failed", None) super().__init__(*args, **kwargs) self.daemon = True def _target_started(self): log.info("Running Thread: %s (%s)", self.name, self.ident) if self._target_started_callback: self._target_started_callback() def _target_stopped(self): log.info("Thread Done: %s (%s)", self.name, self.ident) if self._target_stopped_callback: self._target_stopped_callback() def _target_failed(self, *exc_info): log.info("Thread Failed: %s (%s)", self.name, self.ident) if self._fatal: import sys sys.excepthook(*exc_info) else: thread_manager.set_error(self.name, *exc_info) if self._target_failed_callback: self._target_failed_callback(*exc_info) def run(self): # http://bugs.python.org/issue1230540#msg25696 import sys try: self._target_started() threading.Thread.run(self) # pylint: disable=bare-except # ruff: noqa: E722 except: self._target_failed(*sys.exc_info()) finally: thread_manager.remove(self.name) self._target_stopped() thread_manager = ThreadManager()