django1/django/utils/autoreload.py

589 lines
22 KiB
Python

import functools
import itertools
import logging
import os
import pathlib
import signal
import subprocess
import sys
import threading
import time
import traceback
import weakref
from collections import defaultdict
from pathlib import Path
from types import ModuleType
from zipimport import zipimporter
from django.apps import apps
from django.core.signals import request_finished
from django.dispatch import Signal
from django.utils.functional import cached_property
from django.utils.version import get_version_tuple
autoreload_started = Signal()
file_changed = Signal(providing_args=['file_path', 'kind'])
DJANGO_AUTORELOAD_ENV = 'RUN_MAIN'
logger = logging.getLogger('django.utils.autoreload')
# If an error is raised while importing a file, it's not placed in sys.modules.
# This means that any future modifications aren't caught. Keep a list of these
# file paths to allow watching them in the future.
_error_files = []
_exception = None
try:
import termios
except ImportError:
termios = None
try:
import pywatchman
except ImportError:
pywatchman = None
def check_errors(fn):
@functools.wraps(fn)
def wrapper(*args, **kwargs):
global _exception
try:
fn(*args, **kwargs)
except Exception:
_exception = sys.exc_info()
et, ev, tb = _exception
if getattr(ev, 'filename', None) is None:
# get the filename from the last item in the stack
filename = traceback.extract_tb(tb)[-1][0]
else:
filename = ev.filename
if filename not in _error_files:
_error_files.append(filename)
raise
return wrapper
def raise_last_exception():
global _exception
if _exception is not None:
raise _exception[0](_exception[1]).with_traceback(_exception[2])
def ensure_echo_on():
if termios:
fd = sys.stdin
if fd.isatty():
attr_list = termios.tcgetattr(fd)
if not attr_list[3] & termios.ECHO:
attr_list[3] |= termios.ECHO
if hasattr(signal, 'SIGTTOU'):
old_handler = signal.signal(signal.SIGTTOU, signal.SIG_IGN)
else:
old_handler = None
termios.tcsetattr(fd, termios.TCSANOW, attr_list)
if old_handler is not None:
signal.signal(signal.SIGTTOU, old_handler)
def iter_all_python_module_files():
# This is a hot path during reloading. Create a stable sorted list of
# modules based on the module name and pass it to iter_modules_and_files().
# This ensures cached results are returned in the usual case that modules
# aren't loaded on the fly.
modules_view = sorted(list(sys.modules.items()), key=lambda i: i[0])
modules = tuple(m[1] for m in modules_view if not isinstance(m[1], weakref.ProxyTypes))
return iter_modules_and_files(modules, frozenset(_error_files))
@functools.lru_cache(maxsize=1)
def iter_modules_and_files(modules, extra_files):
"""Iterate through all modules needed to be watched."""
sys_file_paths = []
for module in modules:
# During debugging (with PyDev) the 'typing.io' and 'typing.re' objects
# are added to sys.modules, however they are types not modules and so
# cause issues here.
if not isinstance(module, ModuleType) or module.__spec__ is None:
continue
spec = module.__spec__
# Modules could be loaded from places without a concrete location. If
# this is the case, skip them.
if spec.has_location:
origin = spec.loader.archive if isinstance(spec.loader, zipimporter) else spec.origin
sys_file_paths.append(origin)
results = set()
for filename in itertools.chain(sys_file_paths, extra_files):
if not filename:
continue
path = pathlib.Path(filename)
if not path.exists():
# The module could have been removed, don't fail loudly if this
# is the case.
continue
results.add(path.resolve().absolute())
return frozenset(results)
@functools.lru_cache(maxsize=1)
def common_roots(paths):
"""
Return a tuple of common roots that are shared between the given paths.
File system watchers operate on directories and aren't cheap to create.
Try to find the minimum set of directories to watch that encompass all of
the files that need to be watched.
"""
# Inspired from Werkzeug:
# https://github.com/pallets/werkzeug/blob/7477be2853df70a022d9613e765581b9411c3c39/werkzeug/_reloader.py
# Create a sorted list of the path components, longest first.
path_parts = sorted([x.parts for x in paths], key=len, reverse=True)
tree = {}
for chunks in path_parts:
node = tree
# Add each part of the path to the tree.
for chunk in chunks:
node = node.setdefault(chunk, {})
# Clear the last leaf in the tree.
node.clear()
# Turn the tree into a list of Path instances.
def _walk(node, path):
for prefix, child in node.items():
yield from _walk(child, path + (prefix,))
if not node:
yield Path(*path)
return tuple(_walk(tree, ()))
def sys_path_directories():
"""
Yield absolute directories from sys.path, ignoring entries that don't
exist.
"""
for path in sys.path:
path = Path(path)
if not path.exists():
continue
path = path.resolve().absolute()
# If the path is a file (like a zip file), watch the parent directory.
if path.is_file():
yield path.parent
else:
yield path
def get_child_arguments():
"""
Return the executable. This contains a workaround for Windows if the
executable is reported to not have the .exe extension which can cause bugs
on reloading.
"""
import django.__main__
args = [sys.executable] + ['-W%s' % o for o in sys.warnoptions]
if sys.argv[0] == django.__main__.__file__:
# The server was started with `python -m django runserver`.
args += ['-m', 'django']
args += sys.argv[1:]
else:
args += sys.argv
return args
def trigger_reload(filename):
logger.info('%s changed, reloading.', filename)
sys.exit(3)
def restart_with_reloader():
new_environ = {**os.environ, DJANGO_AUTORELOAD_ENV: 'true'}
args = get_child_arguments()
while True:
exit_code = subprocess.call(args, env=new_environ, close_fds=False)
if exit_code != 3:
return exit_code
class BaseReloader:
def __init__(self):
self.extra_files = set()
self.directory_globs = defaultdict(set)
self._stop_condition = threading.Event()
def watch_dir(self, path, glob):
path = Path(path)
if not path.is_absolute():
raise ValueError('%s must be absolute.' % path)
logger.debug('Watching dir %s with glob %s.', path, glob)
self.directory_globs[path].add(glob)
def watch_file(self, path):
path = Path(path)
if not path.is_absolute():
raise ValueError('%s must be absolute.' % path)
logger.debug('Watching file %s.', path)
self.extra_files.add(path)
def watched_files(self, include_globs=True):
"""
Yield all files that need to be watched, including module files and
files within globs.
"""
yield from iter_all_python_module_files()
yield from self.extra_files
if include_globs:
for directory, patterns in self.directory_globs.items():
for pattern in patterns:
yield from directory.glob(pattern)
def wait_for_apps_ready(self, app_reg, django_main_thread):
"""
Wait until Django reports that the apps have been loaded. If the given
thread has terminated before the apps are ready, then a SyntaxError or
other non-recoverable error has been raised. In that case, stop waiting
for the apps_ready event and continue processing.
Return True if the thread is alive and the ready event has been
triggered, or False if the thread is terminated while waiting for the
event.
"""
while django_main_thread.is_alive():
if app_reg.ready_event.wait(timeout=0.1):
return True
else:
logger.debug('Main Django thread has terminated before apps are ready.')
return False
def run(self, django_main_thread):
logger.debug('Waiting for apps ready_event.')
self.wait_for_apps_ready(apps, django_main_thread)
from django.urls import get_resolver
# Prevent a race condition where URL modules aren't loaded when the
# reloader starts by accessing the urlconf_module property.
get_resolver().urlconf_module
logger.debug('Apps ready_event triggered. Sending autoreload_started signal.')
autoreload_started.send(sender=self)
self.run_loop()
def run_loop(self):
ticker = self.tick()
while not self.should_stop:
try:
next(ticker)
except StopIteration:
break
self.stop()
def tick(self):
"""
This generator is called in a loop from run_loop. It's important that
the method takes care of pausing or otherwise waiting for a period of
time. This split between run_loop() and tick() is to improve the
testability of the reloader implementations by decoupling the work they
do from the loop.
"""
raise NotImplementedError('subclasses must implement tick().')
@classmethod
def check_availability(cls):
raise NotImplementedError('subclasses must implement check_availability().')
def notify_file_changed(self, path):
results = file_changed.send(sender=self, file_path=path)
logger.debug('%s notified as changed. Signal results: %s.', path, results)
if not any(res[1] for res in results):
trigger_reload(path)
# These are primarily used for testing.
@property
def should_stop(self):
return self._stop_condition.is_set()
def stop(self):
self._stop_condition.set()
class StatReloader(BaseReloader):
SLEEP_TIME = 1 # Check for changes once per second.
def tick(self):
state, previous_timestamp = {}, time.time()
while True:
state.update(self.loop_files(state, previous_timestamp))
previous_timestamp = time.time()
time.sleep(self.SLEEP_TIME)
yield
def loop_files(self, previous_times, previous_timestamp):
updated_times = {}
for path, mtime in self.snapshot_files():
previous_time = previous_times.get(path)
# If there are overlapping globs, a file may be iterated twice.
if path in updated_times:
continue
# A new file has been detected. This could happen due to it being
# imported at runtime and only being polled now, or because the
# file was just created. Compare the file's mtime to the
# previous_timestamp and send a notification if it was created
# since the last poll.
is_newly_created = previous_time is None and mtime > previous_timestamp
is_changed = previous_time is not None and previous_time != mtime
if is_newly_created or is_changed:
logger.debug('File %s. is_changed: %s, is_new: %s', path, is_changed, is_newly_created)
logger.debug('File %s previous mtime: %s, current mtime: %s', path, previous_time, mtime)
self.notify_file_changed(path)
updated_times[path] = mtime
return updated_times
def snapshot_files(self):
for file in self.watched_files():
try:
mtime = file.stat().st_mtime
except OSError:
# This is thrown when the file does not exist.
continue
yield file, mtime
@classmethod
def check_availability(cls):
return True
class WatchmanUnavailable(RuntimeError):
pass
class WatchmanReloader(BaseReloader):
def __init__(self):
self.roots = defaultdict(set)
self.processed_request = threading.Event()
super().__init__()
@cached_property
def client(self):
return pywatchman.client()
def _watch_root(self, root):
# In practice this shouldn't occur, however, it's possible that a
# directory that doesn't exist yet is being watched. If it's outside of
# sys.path then this will end up a new root. How to handle this isn't
# clear: Not adding the root will likely break when subscribing to the
# changes, however, as this is currently an internal API, no files
# will be being watched outside of sys.path. Fixing this by checking
# inside watch_glob() and watch_dir() is expensive, instead this could
# could fall back to the StatReloader if this case is detected? For
# now, watching its parent, if possible, is sufficient.
if not root.exists():
if not root.parent.exists():
logger.warning('Unable to watch root dir %s as neither it or its parent exist.', root)
return
root = root.parent
result = self.client.query('watch-project', str(root.absolute()))
if 'warning' in result:
logger.warning('Watchman warning: %s', result['warning'])
logger.debug('Watchman watch-project result: %s', result)
return result['watch'], result.get('relative_path')
@functools.lru_cache()
def _get_clock(self, root):
return self.client.query('clock', root)['clock']
def _subscribe(self, directory, name, expression):
root, rel_path = self._watch_root(directory)
query = {
'expression': expression,
'fields': ['name'],
'since': self._get_clock(root),
'dedup_results': True,
}
if rel_path:
query['relative_root'] = rel_path
logger.debug('Issuing watchman subscription %s, for root %s. Query: %s', name, root, query)
self.client.query('subscribe', root, name, query)
def _subscribe_dir(self, directory, filenames):
if not directory.exists():
if not directory.parent.exists():
logger.warning('Unable to watch directory %s as neither it or its parent exist.', directory)
return
prefix = 'files-parent-%s' % directory.name
filenames = ['%s/%s' % (directory.name, filename) for filename in filenames]
directory = directory.parent
expression = ['name', filenames, 'wholename']
else:
prefix = 'files'
expression = ['name', filenames]
self._subscribe(directory, '%s:%s' % (prefix, directory), expression)
def _watch_glob(self, directory, patterns):
"""
Watch a directory with a specific glob. If the directory doesn't yet
exist, attempt to watch the parent directory and amend the patterns to
include this. It's important this method isn't called more than one per
directory when updating all subscriptions. Subsequent calls will
overwrite the named subscription, so it must include all possible glob
expressions.
"""
prefix = 'glob'
if not directory.exists():
if not directory.parent.exists():
logger.warning('Unable to watch directory %s as neither it or its parent exist.', directory)
return
prefix = 'glob-parent-%s' % directory.name
patterns = ['%s/%s' % (directory.name, pattern) for pattern in patterns]
directory = directory.parent
expression = ['anyof']
for pattern in patterns:
expression.append(['match', pattern, 'wholename'])
self._subscribe(directory, '%s:%s' % (prefix, directory), expression)
def watched_roots(self, watched_files):
extra_directories = self.directory_globs.keys()
watched_file_dirs = [f.parent for f in watched_files]
sys_paths = list(sys_path_directories())
return frozenset((*extra_directories, *watched_file_dirs, *sys_paths))
def _update_watches(self):
watched_files = list(self.watched_files(include_globs=False))
found_roots = common_roots(self.watched_roots(watched_files))
logger.debug('Watching %s files', len(watched_files))
logger.debug('Found common roots: %s', found_roots)
# Setup initial roots for performance, shortest roots first.
for root in sorted(found_roots):
self._watch_root(root)
for directory, patterns in self.directory_globs.items():
self._watch_glob(directory, patterns)
# Group sorted watched_files by their parent directory.
sorted_files = sorted(watched_files, key=lambda p: p.parent)
for directory, group in itertools.groupby(sorted_files, key=lambda p: p.parent):
# These paths need to be relative to the parent directory.
self._subscribe_dir(directory, [str(p.relative_to(directory)) for p in group])
def update_watches(self):
try:
self._update_watches()
except Exception as ex:
# If the service is still available, raise the original exception.
if self.check_server_status(ex):
raise
def _check_subscription(self, sub):
subscription = self.client.getSubscription(sub)
if not subscription:
return
logger.debug('Watchman subscription %s has results.', sub)
for result in subscription:
# When using watch-project, it's not simple to get the relative
# directory without storing some specific state. Store the full
# path to the directory in the subscription name, prefixed by its
# type (glob, files).
root_directory = Path(result['subscription'].split(':', 1)[1])
logger.debug('Found root directory %s', root_directory)
for file in result.get('files', []):
self.notify_file_changed(root_directory / file)
def request_processed(self, **kwargs):
logger.debug('Request processed. Setting update_watches event.')
self.processed_request.set()
def tick(self):
request_finished.connect(self.request_processed)
self.update_watches()
while True:
if self.processed_request.is_set():
self.update_watches()
self.processed_request.clear()
try:
self.client.receive()
except pywatchman.WatchmanError as ex:
self.check_server_status(ex)
else:
for sub in list(self.client.subs.keys()):
self._check_subscription(sub)
yield
def stop(self):
self.client.close()
super().stop()
def check_server_status(self, inner_ex=None):
"""Return True if the server is available."""
try:
self.client.query('version')
except Exception:
raise WatchmanUnavailable(str(inner_ex)) from inner_ex
return True
@classmethod
def check_availability(cls):
if not pywatchman:
raise WatchmanUnavailable('pywatchman not installed.')
client = pywatchman.client(timeout=0.01)
try:
result = client.capabilityCheck()
except Exception:
# The service is down?
raise WatchmanUnavailable('Cannot connect to the watchman service.')
version = get_version_tuple(result['version'])
# Watchman 4.9 includes multiple improvements to watching project
# directories as well as case insensitive filesystems.
logger.debug('Watchman version %s', version)
if version < (4, 9):
raise WatchmanUnavailable('Watchman 4.9 or later is required.')
def get_reloader():
"""Return the most suitable reloader for this environment."""
try:
WatchmanReloader.check_availability()
except WatchmanUnavailable:
return StatReloader()
return WatchmanReloader()
def start_django(reloader, main_func, *args, **kwargs):
ensure_echo_on()
main_func = check_errors(main_func)
django_main_thread = threading.Thread(target=main_func, args=args, kwargs=kwargs)
django_main_thread.setDaemon(True)
django_main_thread.start()
while not reloader.should_stop:
try:
reloader.run(django_main_thread)
except WatchmanUnavailable as ex:
# It's possible that the watchman service shuts down or otherwise
# becomes unavailable. In that case, use the StatReloader.
reloader = StatReloader()
logger.error('Error connecting to Watchman: %s', ex)
logger.info('Watching for file changes with %s', reloader.__class__.__name__)
def run_with_reloader(main_func, *args, **kwargs):
signal.signal(signal.SIGTERM, lambda *args: sys.exit(0))
try:
if os.environ.get(DJANGO_AUTORELOAD_ENV) == 'true':
reloader = get_reloader()
logger.info('Watching for file changes with %s', reloader.__class__.__name__)
start_django(reloader, main_func, *args, **kwargs)
else:
try:
WatchmanReloader.check_availability()
except WatchmanUnavailable as e:
logger.info('Watchman unavailable: %s', e)
exit_code = restart_with_reloader()
sys.exit(exit_code)
except KeyboardInterrupt:
pass