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django/tests/file_storage/tests.py

1244 lines
47 KiB
Python

import os
import shutil
import sys
import tempfile
import threading
import time
import unittest
from datetime import datetime, timedelta
from datetime import timezone as datetime_timezone
from io import StringIO
from pathlib import Path
from urllib.request import urlopen
from django.conf import DEFAULT_STORAGE_ALIAS, STATICFILES_STORAGE_ALIAS
from django.core.cache import cache
from django.core.exceptions import SuspiciousFileOperation
from django.core.files.base import ContentFile, File
from django.core.files.storage import (
GET_STORAGE_CLASS_DEPRECATED_MSG,
FileSystemStorage,
InvalidStorageError,
)
from django.core.files.storage import Storage as BaseStorage
from django.core.files.storage import (
StorageHandler,
default_storage,
get_storage_class,
storages,
)
from django.core.files.uploadedfile import (
InMemoryUploadedFile,
SimpleUploadedFile,
TemporaryUploadedFile,
)
from django.db.models import FileField
from django.db.models.fields.files import FileDescriptor
from django.test import LiveServerTestCase, SimpleTestCase, TestCase, override_settings
from django.test.utils import ignore_warnings, requires_tz_support
from django.urls import NoReverseMatch, reverse_lazy
from django.utils import timezone
from django.utils._os import symlinks_supported
from django.utils.deprecation import RemovedInDjango51Warning
from .models import (
Storage,
callable_default_storage,
callable_storage,
temp_storage,
temp_storage_location,
)
FILE_SUFFIX_REGEX = "[A-Za-z0-9]{7}"
class GetStorageClassTests(SimpleTestCase):
@ignore_warnings(category=RemovedInDjango51Warning)
def test_get_filesystem_storage(self):
"""
get_storage_class returns the class for a storage backend name/path.
"""
self.assertEqual(
get_storage_class("django.core.files.storage.FileSystemStorage"),
FileSystemStorage,
)
@ignore_warnings(category=RemovedInDjango51Warning)
def test_get_invalid_storage_module(self):
"""
get_storage_class raises an error if the requested import don't exist.
"""
with self.assertRaisesMessage(ImportError, "No module named 'storage'"):
get_storage_class("storage.NonexistentStorage")
@ignore_warnings(category=RemovedInDjango51Warning)
def test_get_nonexistent_storage_class(self):
"""
get_storage_class raises an error if the requested class don't exist.
"""
with self.assertRaises(ImportError):
get_storage_class("django.core.files.storage.NonexistentStorage")
@ignore_warnings(category=RemovedInDjango51Warning)
def test_get_nonexistent_storage_module(self):
"""
get_storage_class raises an error if the requested module don't exist.
"""
with self.assertRaisesMessage(
ImportError, "No module named 'django.core.files.nonexistent_storage'"
):
get_storage_class(
"django.core.files.nonexistent_storage.NonexistentStorage"
)
def test_deprecation_warning(self):
msg = GET_STORAGE_CLASS_DEPRECATED_MSG
with self.assertRaisesMessage(RemovedInDjango51Warning, msg):
get_storage_class("django.core.files.storage.FileSystemStorage"),
class FileSystemStorageTests(unittest.TestCase):
def test_deconstruction(self):
path, args, kwargs = temp_storage.deconstruct()
self.assertEqual(path, "django.core.files.storage.FileSystemStorage")
self.assertEqual(args, ())
self.assertEqual(kwargs, {"location": temp_storage_location})
kwargs_orig = {
"location": temp_storage_location,
"base_url": "http://myfiles.example.com/",
}
storage = FileSystemStorage(**kwargs_orig)
path, args, kwargs = storage.deconstruct()
self.assertEqual(kwargs, kwargs_orig)
def test_lazy_base_url_init(self):
"""
FileSystemStorage.__init__() shouldn't evaluate base_url.
"""
storage = FileSystemStorage(base_url=reverse_lazy("app:url"))
with self.assertRaises(NoReverseMatch):
storage.url(storage.base_url)
class FileStorageTests(SimpleTestCase):
storage_class = FileSystemStorage
def setUp(self):
self.temp_dir = tempfile.mkdtemp()
self.storage = self.storage_class(
location=self.temp_dir, base_url="/test_media_url/"
)
# Set up a second temporary directory which is ensured to have a mixed
# case name.
self.temp_dir2 = tempfile.mkdtemp(suffix="aBc")
def tearDown(self):
shutil.rmtree(self.temp_dir)
shutil.rmtree(self.temp_dir2)
def test_empty_location(self):
"""
Makes sure an exception is raised if the location is empty
"""
storage = self.storage_class(location="")
self.assertEqual(storage.base_location, "")
self.assertEqual(storage.location, os.getcwd())
def test_file_access_options(self):
"""
Standard file access options are available, and work as expected.
"""
self.assertFalse(self.storage.exists("storage_test"))
f = self.storage.open("storage_test", "w")
f.write("storage contents")
f.close()
self.assertTrue(self.storage.exists("storage_test"))
f = self.storage.open("storage_test", "r")
self.assertEqual(f.read(), "storage contents")
f.close()
self.storage.delete("storage_test")
self.assertFalse(self.storage.exists("storage_test"))
def _test_file_time_getter(self, getter):
# Check for correct behavior under both USE_TZ=True and USE_TZ=False.
# The tests are similar since they both set up a situation where the
# system time zone, Django's TIME_ZONE, and UTC are distinct.
self._test_file_time_getter_tz_handling_on(getter)
self._test_file_time_getter_tz_handling_off(getter)
@override_settings(USE_TZ=True, TIME_ZONE="Africa/Algiers")
def _test_file_time_getter_tz_handling_on(self, getter):
# Django's TZ (and hence the system TZ) is set to Africa/Algiers which
# is UTC+1 and has no DST change. We can set the Django TZ to something
# else so that UTC, Django's TIME_ZONE, and the system timezone are all
# different.
now_in_algiers = timezone.make_aware(datetime.now())
with timezone.override(timezone.get_fixed_timezone(-300)):
# At this point the system TZ is +1 and the Django TZ
# is -5. The following will be aware in UTC.
now = timezone.now()
self.assertFalse(self.storage.exists("test.file.tz.on"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file.tz.on", f)
self.addCleanup(self.storage.delete, f_name)
dt = getter(f_name)
# dt should be aware, in UTC
self.assertTrue(timezone.is_aware(dt))
self.assertEqual(now.tzname(), dt.tzname())
# The three timezones are indeed distinct.
naive_now = datetime.now()
algiers_offset = now_in_algiers.tzinfo.utcoffset(naive_now)
django_offset = timezone.get_current_timezone().utcoffset(naive_now)
utc_offset = datetime_timezone.utc.utcoffset(naive_now)
self.assertGreater(algiers_offset, utc_offset)
self.assertLess(django_offset, utc_offset)
# dt and now should be the same effective time.
self.assertLess(abs(dt - now), timedelta(seconds=2))
@override_settings(USE_TZ=False, TIME_ZONE="Africa/Algiers")
def _test_file_time_getter_tz_handling_off(self, getter):
# Django's TZ (and hence the system TZ) is set to Africa/Algiers which
# is UTC+1 and has no DST change. We can set the Django TZ to something
# else so that UTC, Django's TIME_ZONE, and the system timezone are all
# different.
now_in_algiers = timezone.make_aware(datetime.now())
with timezone.override(timezone.get_fixed_timezone(-300)):
# At this point the system TZ is +1 and the Django TZ
# is -5.
self.assertFalse(self.storage.exists("test.file.tz.off"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file.tz.off", f)
self.addCleanup(self.storage.delete, f_name)
dt = getter(f_name)
# dt should be naive, in system (+1) TZ
self.assertTrue(timezone.is_naive(dt))
# The three timezones are indeed distinct.
naive_now = datetime.now()
algiers_offset = now_in_algiers.tzinfo.utcoffset(naive_now)
django_offset = timezone.get_current_timezone().utcoffset(naive_now)
utc_offset = datetime_timezone.utc.utcoffset(naive_now)
self.assertGreater(algiers_offset, utc_offset)
self.assertLess(django_offset, utc_offset)
# dt and naive_now should be the same effective time.
self.assertLess(abs(dt - naive_now), timedelta(seconds=2))
# If we convert dt to an aware object using the Algiers
# timezone then it should be the same effective time to
# now_in_algiers.
_dt = timezone.make_aware(dt, now_in_algiers.tzinfo)
self.assertLess(abs(_dt - now_in_algiers), timedelta(seconds=2))
def test_file_get_accessed_time(self):
"""
File storage returns a Datetime object for the last accessed time of
a file.
"""
self.assertFalse(self.storage.exists("test.file"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file", f)
self.addCleanup(self.storage.delete, f_name)
atime = self.storage.get_accessed_time(f_name)
self.assertEqual(
atime, datetime.fromtimestamp(os.path.getatime(self.storage.path(f_name)))
)
self.assertLess(
timezone.now() - self.storage.get_accessed_time(f_name),
timedelta(seconds=2),
)
@requires_tz_support
def test_file_get_accessed_time_timezone(self):
self._test_file_time_getter(self.storage.get_accessed_time)
def test_file_get_created_time(self):
"""
File storage returns a datetime for the creation time of a file.
"""
self.assertFalse(self.storage.exists("test.file"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file", f)
self.addCleanup(self.storage.delete, f_name)
ctime = self.storage.get_created_time(f_name)
self.assertEqual(
ctime, datetime.fromtimestamp(os.path.getctime(self.storage.path(f_name)))
)
self.assertLess(
timezone.now() - self.storage.get_created_time(f_name), timedelta(seconds=2)
)
@requires_tz_support
def test_file_get_created_time_timezone(self):
self._test_file_time_getter(self.storage.get_created_time)
def test_file_get_modified_time(self):
"""
File storage returns a datetime for the last modified time of a file.
"""
self.assertFalse(self.storage.exists("test.file"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file", f)
self.addCleanup(self.storage.delete, f_name)
mtime = self.storage.get_modified_time(f_name)
self.assertEqual(
mtime, datetime.fromtimestamp(os.path.getmtime(self.storage.path(f_name)))
)
self.assertLess(
timezone.now() - self.storage.get_modified_time(f_name),
timedelta(seconds=2),
)
@requires_tz_support
def test_file_get_modified_time_timezone(self):
self._test_file_time_getter(self.storage.get_modified_time)
def test_file_save_without_name(self):
"""
File storage extracts the filename from the content object if no
name is given explicitly.
"""
self.assertFalse(self.storage.exists("test.file"))
f = ContentFile("custom contents")
f.name = "test.file"
storage_f_name = self.storage.save(None, f)
self.assertEqual(storage_f_name, f.name)
self.assertTrue(os.path.exists(os.path.join(self.temp_dir, f.name)))
self.storage.delete(storage_f_name)
def test_file_save_with_path(self):
"""
Saving a pathname should create intermediate directories as necessary.
"""
self.assertFalse(self.storage.exists("path/to"))
self.storage.save("path/to/test.file", ContentFile("file saved with path"))
self.assertTrue(self.storage.exists("path/to"))
with self.storage.open("path/to/test.file") as f:
self.assertEqual(f.read(), b"file saved with path")
self.assertTrue(
os.path.exists(os.path.join(self.temp_dir, "path", "to", "test.file"))
)
self.storage.delete("path/to/test.file")
def test_file_save_abs_path(self):
test_name = "path/to/test.file"
f = ContentFile("file saved with path")
f_name = self.storage.save(os.path.join(self.temp_dir, test_name), f)
self.assertEqual(f_name, test_name)
@unittest.skipUnless(
symlinks_supported(), "Must be able to symlink to run this test."
)
def test_file_save_broken_symlink(self):
"""A new path is created on save when a broken symlink is supplied."""
nonexistent_file_path = os.path.join(self.temp_dir, "nonexistent.txt")
broken_symlink_path = os.path.join(self.temp_dir, "symlink.txt")
os.symlink(nonexistent_file_path, broken_symlink_path)
f = ContentFile("some content")
f_name = self.storage.save(broken_symlink_path, f)
self.assertIs(os.path.exists(os.path.join(self.temp_dir, f_name)), True)
def test_save_doesnt_close(self):
with TemporaryUploadedFile("test", "text/plain", 1, "utf8") as file:
file.write(b"1")
file.seek(0)
self.assertFalse(file.closed)
self.storage.save("path/to/test.file", file)
self.assertFalse(file.closed)
self.assertFalse(file.file.closed)
file = InMemoryUploadedFile(StringIO("1"), "", "test", "text/plain", 1, "utf8")
with file:
self.assertFalse(file.closed)
self.storage.save("path/to/test.file", file)
self.assertFalse(file.closed)
self.assertFalse(file.file.closed)
def test_file_path(self):
"""
File storage returns the full path of a file
"""
self.assertFalse(self.storage.exists("test.file"))
f = ContentFile("custom contents")
f_name = self.storage.save("test.file", f)
self.assertEqual(self.storage.path(f_name), os.path.join(self.temp_dir, f_name))
self.storage.delete(f_name)
def test_file_url(self):
"""
File storage returns a url to access a given file from the web.
"""
self.assertEqual(
self.storage.url("test.file"), self.storage.base_url + "test.file"
)
# should encode special chars except ~!*()'
# like encodeURIComponent() JavaScript function do
self.assertEqual(
self.storage.url(r"~!*()'@#$%^&*abc`+ =.file"),
"/test_media_url/~!*()'%40%23%24%25%5E%26*abc%60%2B%20%3D.file",
)
self.assertEqual(self.storage.url("ab\0c"), "/test_media_url/ab%00c")
# should translate os path separator(s) to the url path separator
self.assertEqual(
self.storage.url("""a/b\\c.file"""), "/test_media_url/a/b/c.file"
)
# #25905: remove leading slashes from file names to prevent unsafe url output
self.assertEqual(self.storage.url("/evil.com"), "/test_media_url/evil.com")
self.assertEqual(self.storage.url(r"\evil.com"), "/test_media_url/evil.com")
self.assertEqual(self.storage.url("///evil.com"), "/test_media_url/evil.com")
self.assertEqual(self.storage.url(r"\\\evil.com"), "/test_media_url/evil.com")
self.assertEqual(self.storage.url(None), "/test_media_url/")
def test_base_url(self):
"""
File storage returns a url even when its base_url is unset or modified.
"""
self.storage.base_url = None
with self.assertRaises(ValueError):
self.storage.url("test.file")
# #22717: missing ending slash in base_url should be auto-corrected
storage = self.storage_class(
location=self.temp_dir, base_url="/no_ending_slash"
)
self.assertEqual(
storage.url("test.file"), "%s%s" % (storage.base_url, "test.file")
)
def test_listdir(self):
"""
File storage returns a tuple containing directories and files.
"""
self.assertFalse(self.storage.exists("storage_test_1"))
self.assertFalse(self.storage.exists("storage_test_2"))
self.assertFalse(self.storage.exists("storage_dir_1"))
self.storage.save("storage_test_1", ContentFile("custom content"))
self.storage.save("storage_test_2", ContentFile("custom content"))
os.mkdir(os.path.join(self.temp_dir, "storage_dir_1"))
self.addCleanup(self.storage.delete, "storage_test_1")
self.addCleanup(self.storage.delete, "storage_test_2")
for directory in ("", Path("")):
with self.subTest(directory=directory):
dirs, files = self.storage.listdir(directory)
self.assertEqual(set(dirs), {"storage_dir_1"})
self.assertEqual(set(files), {"storage_test_1", "storage_test_2"})
def test_file_storage_prevents_directory_traversal(self):
"""
File storage prevents directory traversal (files can only be accessed if
they're below the storage location).
"""
with self.assertRaises(SuspiciousFileOperation):
self.storage.exists("..")
with self.assertRaises(SuspiciousFileOperation):
self.storage.exists("/etc/passwd")
def test_file_storage_preserves_filename_case(self):
"""The storage backend should preserve case of filenames."""
# Create a storage backend associated with the mixed case name
# directory.
other_temp_storage = self.storage_class(location=self.temp_dir2)
# Ask that storage backend to store a file with a mixed case filename.
mixed_case = "CaSe_SeNsItIvE"
file = other_temp_storage.open(mixed_case, "w")
file.write("storage contents")
file.close()
self.assertEqual(
os.path.join(self.temp_dir2, mixed_case),
other_temp_storage.path(mixed_case),
)
other_temp_storage.delete(mixed_case)
def test_makedirs_race_handling(self):
"""
File storage should be robust against directory creation race conditions.
"""
real_makedirs = os.makedirs
# Monkey-patch os.makedirs, to simulate a normal call, a raced call,
# and an error.
def fake_makedirs(path, mode=0o777, exist_ok=False):
if path == os.path.join(self.temp_dir, "normal"):
real_makedirs(path, mode, exist_ok)
elif path == os.path.join(self.temp_dir, "raced"):
real_makedirs(path, mode, exist_ok)
if not exist_ok:
raise FileExistsError()
elif path == os.path.join(self.temp_dir, "error"):
raise PermissionError()
else:
self.fail("unexpected argument %r" % path)
try:
os.makedirs = fake_makedirs
self.storage.save("normal/test.file", ContentFile("saved normally"))
with self.storage.open("normal/test.file") as f:
self.assertEqual(f.read(), b"saved normally")
self.storage.save("raced/test.file", ContentFile("saved with race"))
with self.storage.open("raced/test.file") as f:
self.assertEqual(f.read(), b"saved with race")
# Exceptions aside from FileExistsError are raised.
with self.assertRaises(PermissionError):
self.storage.save("error/test.file", ContentFile("not saved"))
finally:
os.makedirs = real_makedirs
def test_remove_race_handling(self):
"""
File storage should be robust against file removal race conditions.
"""
real_remove = os.remove
# Monkey-patch os.remove, to simulate a normal call, a raced call,
# and an error.
def fake_remove(path):
if path == os.path.join(self.temp_dir, "normal.file"):
real_remove(path)
elif path == os.path.join(self.temp_dir, "raced.file"):
real_remove(path)
raise FileNotFoundError()
elif path == os.path.join(self.temp_dir, "error.file"):
raise PermissionError()
else:
self.fail("unexpected argument %r" % path)
try:
os.remove = fake_remove
self.storage.save("normal.file", ContentFile("delete normally"))
self.storage.delete("normal.file")
self.assertFalse(self.storage.exists("normal.file"))
self.storage.save("raced.file", ContentFile("delete with race"))
self.storage.delete("raced.file")
self.assertFalse(self.storage.exists("normal.file"))
# Exceptions aside from FileNotFoundError are raised.
self.storage.save("error.file", ContentFile("delete with error"))
with self.assertRaises(PermissionError):
self.storage.delete("error.file")
finally:
os.remove = real_remove
def test_file_chunks_error(self):
"""
Test behavior when file.chunks() is raising an error
"""
f1 = ContentFile("chunks fails")
def failing_chunks():
raise OSError
f1.chunks = failing_chunks
with self.assertRaises(OSError):
self.storage.save("error.file", f1)
def test_delete_no_name(self):
"""
Calling delete with an empty name should not try to remove the base
storage directory, but fail loudly (#20660).
"""
msg = "The name must be given to delete()."
with self.assertRaisesMessage(ValueError, msg):
self.storage.delete(None)
with self.assertRaisesMessage(ValueError, msg):
self.storage.delete("")
def test_delete_deletes_directories(self):
tmp_dir = tempfile.mkdtemp(dir=self.storage.location)
self.storage.delete(tmp_dir)
self.assertFalse(os.path.exists(tmp_dir))
@override_settings(
MEDIA_ROOT="media_root",
MEDIA_URL="media_url/",
FILE_UPLOAD_PERMISSIONS=0o777,
FILE_UPLOAD_DIRECTORY_PERMISSIONS=0o777,
)
def test_setting_changed(self):
"""
Properties using settings values as defaults should be updated on
referenced settings change while specified values should be unchanged.
"""
storage = self.storage_class(
location="explicit_location",
base_url="explicit_base_url/",
file_permissions_mode=0o666,
directory_permissions_mode=0o666,
)
defaults_storage = self.storage_class()
settings = {
"MEDIA_ROOT": "overridden_media_root",
"MEDIA_URL": "/overridden_media_url/",
"FILE_UPLOAD_PERMISSIONS": 0o333,
"FILE_UPLOAD_DIRECTORY_PERMISSIONS": 0o333,
}
with self.settings(**settings):
self.assertEqual(storage.base_location, "explicit_location")
self.assertIn("explicit_location", storage.location)
self.assertEqual(storage.base_url, "explicit_base_url/")
self.assertEqual(storage.file_permissions_mode, 0o666)
self.assertEqual(storage.directory_permissions_mode, 0o666)
self.assertEqual(defaults_storage.base_location, settings["MEDIA_ROOT"])
self.assertIn(settings["MEDIA_ROOT"], defaults_storage.location)
self.assertEqual(defaults_storage.base_url, settings["MEDIA_URL"])
self.assertEqual(
defaults_storage.file_permissions_mode,
settings["FILE_UPLOAD_PERMISSIONS"],
)
self.assertEqual(
defaults_storage.directory_permissions_mode,
settings["FILE_UPLOAD_DIRECTORY_PERMISSIONS"],
)
def test_file_methods_pathlib_path(self):
p = Path("test.file")
self.assertFalse(self.storage.exists(p))
f = ContentFile("custom contents")
f_name = self.storage.save(p, f)
# Storage basic methods.
self.assertEqual(self.storage.path(p), os.path.join(self.temp_dir, p))
self.assertEqual(self.storage.size(p), 15)
self.assertEqual(self.storage.url(p), self.storage.base_url + f_name)
with self.storage.open(p) as f:
self.assertEqual(f.read(), b"custom contents")
self.addCleanup(self.storage.delete, p)
class CustomStorage(FileSystemStorage):
def get_available_name(self, name, max_length=None):
"""
Append numbers to duplicate files rather than underscores, like Trac.
"""
basename, *ext = os.path.splitext(name)
number = 2
while self.exists(name):
name = "".join([basename, ".", str(number)] + ext)
number += 1
return name
class CustomStorageTests(FileStorageTests):
storage_class = CustomStorage
def test_custom_get_available_name(self):
first = self.storage.save("custom_storage", ContentFile("custom contents"))
self.assertEqual(first, "custom_storage")
second = self.storage.save("custom_storage", ContentFile("more contents"))
self.assertEqual(second, "custom_storage.2")
self.storage.delete(first)
self.storage.delete(second)
class OverwritingStorage(FileSystemStorage):
"""
Overwrite existing files instead of appending a suffix to generate an
unused name.
"""
# Mask out O_EXCL so os.open() doesn't raise OSError if the file exists.
OS_OPEN_FLAGS = FileSystemStorage.OS_OPEN_FLAGS & ~os.O_EXCL
def get_available_name(self, name, max_length=None):
"""Override the effort to find an used name."""
return name
class OverwritingStorageTests(FileStorageTests):
storage_class = OverwritingStorage
def test_save_overwrite_behavior(self):
"""Saving to same file name twice overwrites the first file."""
name = "test.file"
self.assertFalse(self.storage.exists(name))
content_1 = b"content one"
content_2 = b"second content"
f_1 = ContentFile(content_1)
f_2 = ContentFile(content_2)
stored_name_1 = self.storage.save(name, f_1)
try:
self.assertEqual(stored_name_1, name)
self.assertTrue(self.storage.exists(name))
self.assertTrue(os.path.exists(os.path.join(self.temp_dir, name)))
with self.storage.open(name) as fp:
self.assertEqual(fp.read(), content_1)
stored_name_2 = self.storage.save(name, f_2)
self.assertEqual(stored_name_2, name)
self.assertTrue(self.storage.exists(name))
self.assertTrue(os.path.exists(os.path.join(self.temp_dir, name)))
with self.storage.open(name) as fp:
self.assertEqual(fp.read(), content_2)
finally:
self.storage.delete(name)
class DiscardingFalseContentStorage(FileSystemStorage):
def _save(self, name, content):
if content:
return super()._save(name, content)
return ""
class DiscardingFalseContentStorageTests(FileStorageTests):
storage_class = DiscardingFalseContentStorage
def test_custom_storage_discarding_empty_content(self):
"""
When Storage.save() wraps a file-like object in File, it should include
the name argument so that bool(file) evaluates to True (#26495).
"""
output = StringIO("content")
self.storage.save("tests/stringio", output)
self.assertTrue(self.storage.exists("tests/stringio"))
with self.storage.open("tests/stringio") as f:
self.assertEqual(f.read(), b"content")
class FileFieldStorageTests(TestCase):
def tearDown(self):
shutil.rmtree(temp_storage_location)
def _storage_max_filename_length(self, storage):
"""
Query filesystem for maximum filename length (e.g. AUFS has 242).
"""
dir_to_test = storage.location
while not os.path.exists(dir_to_test):
dir_to_test = os.path.dirname(dir_to_test)
try:
return os.pathconf(dir_to_test, "PC_NAME_MAX")
except Exception:
return 255 # Should be safe on most backends
def test_files(self):
self.assertIsInstance(Storage.normal, FileDescriptor)
# An object without a file has limited functionality.
obj1 = Storage()
self.assertEqual(obj1.normal.name, "")
with self.assertRaises(ValueError):
obj1.normal.size
# Saving a file enables full functionality.
obj1.normal.save("django_test.txt", ContentFile("content"))
self.assertEqual(obj1.normal.name, "tests/django_test.txt")
self.assertEqual(obj1.normal.size, 7)
self.assertEqual(obj1.normal.read(), b"content")
obj1.normal.close()
# File objects can be assigned to FileField attributes, but shouldn't
# get committed until the model it's attached to is saved.
obj1.normal = SimpleUploadedFile("assignment.txt", b"content")
dirs, files = temp_storage.listdir("tests")
self.assertEqual(dirs, [])
self.assertNotIn("assignment.txt", files)
obj1.save()
dirs, files = temp_storage.listdir("tests")
self.assertEqual(sorted(files), ["assignment.txt", "django_test.txt"])
# Save another file with the same name.
obj2 = Storage()
obj2.normal.save("django_test.txt", ContentFile("more content"))
obj2_name = obj2.normal.name
self.assertRegex(obj2_name, "tests/django_test_%s.txt" % FILE_SUFFIX_REGEX)
self.assertEqual(obj2.normal.size, 12)
obj2.normal.close()
# Deleting an object does not delete the file it uses.
obj2.delete()
obj2.normal.save("django_test.txt", ContentFile("more content"))
self.assertNotEqual(obj2_name, obj2.normal.name)
self.assertRegex(
obj2.normal.name, "tests/django_test_%s.txt" % FILE_SUFFIX_REGEX
)
obj2.normal.close()
def test_filefield_read(self):
# Files can be read in a little at a time, if necessary.
obj = Storage.objects.create(
normal=SimpleUploadedFile("assignment.txt", b"content")
)
obj.normal.open()
self.assertEqual(obj.normal.read(3), b"con")
self.assertEqual(obj.normal.read(), b"tent")
self.assertEqual(
list(obj.normal.chunks(chunk_size=2)), [b"co", b"nt", b"en", b"t"]
)
obj.normal.close()
def test_filefield_write(self):
# Files can be written to.
obj = Storage.objects.create(
normal=SimpleUploadedFile("rewritten.txt", b"content")
)
with obj.normal as normal:
normal.open("wb")
normal.write(b"updated")
obj.refresh_from_db()
self.assertEqual(obj.normal.read(), b"updated")
obj.normal.close()
def test_filefield_reopen(self):
obj = Storage.objects.create(
normal=SimpleUploadedFile("reopen.txt", b"content")
)
with obj.normal as normal:
normal.open()
obj.normal.open()
obj.normal.file.seek(0)
obj.normal.close()
def test_duplicate_filename(self):
# Multiple files with the same name get _(7 random chars) appended to them.
objs = [Storage() for i in range(2)]
for o in objs:
o.normal.save("multiple_files.txt", ContentFile("Same Content"))
try:
names = [o.normal.name for o in objs]
self.assertEqual(names[0], "tests/multiple_files.txt")
self.assertRegex(
names[1], "tests/multiple_files_%s.txt" % FILE_SUFFIX_REGEX
)
finally:
for o in objs:
o.delete()
def test_file_truncation(self):
# Given the max_length is limited, when multiple files get uploaded
# under the same name, then the filename get truncated in order to fit
# in _(7 random chars). When most of the max_length is taken by
# dirname + extension and there are not enough characters in the
# filename to truncate, an exception should be raised.
objs = [Storage() for i in range(2)]
filename = "filename.ext"
for o in objs:
o.limited_length.save(filename, ContentFile("Same Content"))
try:
# Testing truncation.
names = [o.limited_length.name for o in objs]
self.assertEqual(names[0], "tests/%s" % filename)
self.assertRegex(names[1], "tests/fi_%s.ext" % FILE_SUFFIX_REGEX)
# Testing exception is raised when filename is too short to truncate.
filename = "short.longext"
objs[0].limited_length.save(filename, ContentFile("Same Content"))
with self.assertRaisesMessage(
SuspiciousFileOperation, "Storage can not find an available filename"
):
objs[1].limited_length.save(*(filename, ContentFile("Same Content")))
finally:
for o in objs:
o.delete()
@unittest.skipIf(
sys.platform == "win32",
"Windows supports at most 260 characters in a path.",
)
def test_extended_length_storage(self):
# Testing FileField with max_length > 255. Most systems have filename
# length limitation of 255. Path takes extra chars.
filename = (
self._storage_max_filename_length(temp_storage) - 4
) * "a" # 4 chars for extension.
obj = Storage()
obj.extended_length.save("%s.txt" % filename, ContentFile("Same Content"))
self.assertEqual(obj.extended_length.name, "tests/%s.txt" % filename)
self.assertEqual(obj.extended_length.read(), b"Same Content")
obj.extended_length.close()
def test_filefield_default(self):
# Default values allow an object to access a single file.
temp_storage.save("tests/default.txt", ContentFile("default content"))
obj = Storage.objects.create()
self.assertEqual(obj.default.name, "tests/default.txt")
self.assertEqual(obj.default.read(), b"default content")
obj.default.close()
# But it shouldn't be deleted, even if there are no more objects using
# it.
obj.delete()
obj = Storage()
self.assertEqual(obj.default.read(), b"default content")
obj.default.close()
def test_empty_upload_to(self):
# upload_to can be empty, meaning it does not use subdirectory.
obj = Storage()
obj.empty.save("django_test.txt", ContentFile("more content"))
self.assertEqual(obj.empty.name, "django_test.txt")
self.assertEqual(obj.empty.read(), b"more content")
obj.empty.close()
def test_pathlib_upload_to(self):
obj = Storage()
obj.pathlib_callable.save("some_file1.txt", ContentFile("some content"))
self.assertEqual(obj.pathlib_callable.name, "bar/some_file1.txt")
obj.pathlib_direct.save("some_file2.txt", ContentFile("some content"))
self.assertEqual(obj.pathlib_direct.name, "bar/some_file2.txt")
obj.random.close()
def test_random_upload_to(self):
# Verify the fix for #5655, making sure the directory is only
# determined once.
obj = Storage()
obj.random.save("random_file", ContentFile("random content"))
self.assertTrue(obj.random.name.endswith("/random_file"))
obj.random.close()
def test_custom_valid_name_callable_upload_to(self):
"""
Storage.get_valid_name() should be called when upload_to is a callable.
"""
obj = Storage()
obj.custom_valid_name.save("random_file", ContentFile("random content"))
# CustomValidNameStorage.get_valid_name() appends '_valid' to the name
self.assertTrue(obj.custom_valid_name.name.endswith("/random_file_valid"))
obj.custom_valid_name.close()
def test_filefield_pickling(self):
# Push an object into the cache to make sure it pickles properly
obj = Storage()
obj.normal.save("django_test.txt", ContentFile("more content"))
obj.normal.close()
cache.set("obj", obj)
self.assertEqual(cache.get("obj").normal.name, "tests/django_test.txt")
def test_file_object(self):
# Create sample file
temp_storage.save("tests/example.txt", ContentFile("some content"))
# Load it as Python file object
with open(temp_storage.path("tests/example.txt")) as file_obj:
# Save it using storage and read its content
temp_storage.save("tests/file_obj", file_obj)
self.assertTrue(temp_storage.exists("tests/file_obj"))
with temp_storage.open("tests/file_obj") as f:
self.assertEqual(f.read(), b"some content")
def test_stringio(self):
# Test passing StringIO instance as content argument to save
output = StringIO()
output.write("content")
output.seek(0)
# Save it and read written file
temp_storage.save("tests/stringio", output)
self.assertTrue(temp_storage.exists("tests/stringio"))
with temp_storage.open("tests/stringio") as f:
self.assertEqual(f.read(), b"content")
class FieldCallableFileStorageTests(SimpleTestCase):
def setUp(self):
self.temp_storage_location = tempfile.mkdtemp(
suffix="filefield_callable_storage"
)
def tearDown(self):
shutil.rmtree(self.temp_storage_location)
def test_callable_base_class_error_raises(self):
class NotStorage:
pass
msg = (
"FileField.storage must be a subclass/instance of "
"django.core.files.storage.base.Storage"
)
for invalid_type in (NotStorage, str, list, set, tuple):
with self.subTest(invalid_type=invalid_type):
with self.assertRaisesMessage(TypeError, msg):
FileField(storage=invalid_type)
def test_file_field_storage_none_uses_default_storage(self):
self.assertEqual(FileField().storage, default_storage)
def test_callable_function_storage_file_field(self):
storage = FileSystemStorage(location=self.temp_storage_location)
def get_storage():
return storage
obj = FileField(storage=get_storage)
self.assertEqual(obj.storage, storage)
self.assertEqual(obj.storage.location, storage.location)
def test_callable_class_storage_file_field(self):
class GetStorage(FileSystemStorage):
pass
obj = FileField(storage=GetStorage)
self.assertIsInstance(obj.storage, BaseStorage)
def test_callable_storage_file_field_in_model(self):
obj = Storage()
self.assertEqual(obj.storage_callable.storage, temp_storage)
self.assertEqual(obj.storage_callable.storage.location, temp_storage_location)
self.assertIsInstance(obj.storage_callable_class.storage, BaseStorage)
def test_deconstruction(self):
"""
Deconstructing gives the original callable, not the evaluated value.
"""
obj = Storage()
*_, kwargs = obj._meta.get_field("storage_callable").deconstruct()
storage = kwargs["storage"]
self.assertIs(storage, callable_storage)
def test_deconstruction_storage_callable_default(self):
"""
A callable that returns default_storage is not omitted when
deconstructing.
"""
obj = Storage()
*_, kwargs = obj._meta.get_field("storage_callable_default").deconstruct()
self.assertIs(kwargs["storage"], callable_default_storage)
# Tests for a race condition on file saving (#4948).
# This is written in such a way that it'll always pass on platforms
# without threading.
class SlowFile(ContentFile):
def chunks(self):
time.sleep(1)
return super().chunks()
class FileSaveRaceConditionTest(SimpleTestCase):
def setUp(self):
self.storage_dir = tempfile.mkdtemp()
self.storage = FileSystemStorage(self.storage_dir)
self.thread = threading.Thread(target=self.save_file, args=["conflict"])
def tearDown(self):
shutil.rmtree(self.storage_dir)
def save_file(self, name):
name = self.storage.save(name, SlowFile(b"Data"))
def test_race_condition(self):
self.thread.start()
self.save_file("conflict")
self.thread.join()
files = sorted(os.listdir(self.storage_dir))
self.assertEqual(files[0], "conflict")
self.assertRegex(files[1], "conflict_%s" % FILE_SUFFIX_REGEX)
@unittest.skipIf(
sys.platform == "win32", "Windows only partially supports umasks and chmod."
)
class FileStoragePermissions(unittest.TestCase):
def setUp(self):
self.umask = 0o027
self.old_umask = os.umask(self.umask)
self.storage_dir = tempfile.mkdtemp()
def tearDown(self):
shutil.rmtree(self.storage_dir)
os.umask(self.old_umask)
@override_settings(FILE_UPLOAD_PERMISSIONS=0o654)
def test_file_upload_permissions(self):
self.storage = FileSystemStorage(self.storage_dir)
name = self.storage.save("the_file", ContentFile("data"))
actual_mode = os.stat(self.storage.path(name))[0] & 0o777
self.assertEqual(actual_mode, 0o654)
@override_settings(FILE_UPLOAD_PERMISSIONS=None)
def test_file_upload_default_permissions(self):
self.storage = FileSystemStorage(self.storage_dir)
fname = self.storage.save("some_file", ContentFile("data"))
mode = os.stat(self.storage.path(fname))[0] & 0o777
self.assertEqual(mode, 0o666 & ~self.umask)
@override_settings(FILE_UPLOAD_DIRECTORY_PERMISSIONS=0o765)
def test_file_upload_directory_permissions(self):
self.storage = FileSystemStorage(self.storage_dir)
name = self.storage.save("the_directory/subdir/the_file", ContentFile("data"))
file_path = Path(self.storage.path(name))
self.assertEqual(file_path.parent.stat().st_mode & 0o777, 0o765)
self.assertEqual(file_path.parent.parent.stat().st_mode & 0o777, 0o765)
@override_settings(FILE_UPLOAD_DIRECTORY_PERMISSIONS=None)
def test_file_upload_directory_default_permissions(self):
self.storage = FileSystemStorage(self.storage_dir)
name = self.storage.save("the_directory/subdir/the_file", ContentFile("data"))
file_path = Path(self.storage.path(name))
expected_mode = 0o777 & ~self.umask
self.assertEqual(file_path.parent.stat().st_mode & 0o777, expected_mode)
self.assertEqual(file_path.parent.parent.stat().st_mode & 0o777, expected_mode)
class FileStoragePathParsing(SimpleTestCase):
def setUp(self):
self.storage_dir = tempfile.mkdtemp()
self.storage = FileSystemStorage(self.storage_dir)
def tearDown(self):
shutil.rmtree(self.storage_dir)
def test_directory_with_dot(self):
"""Regression test for #9610.
If the directory name contains a dot and the file name doesn't, make
sure we still mangle the file name instead of the directory name.
"""
self.storage.save("dotted.path/test", ContentFile("1"))
self.storage.save("dotted.path/test", ContentFile("2"))
files = sorted(os.listdir(os.path.join(self.storage_dir, "dotted.path")))
self.assertFalse(os.path.exists(os.path.join(self.storage_dir, "dotted_.path")))
self.assertEqual(files[0], "test")
self.assertRegex(files[1], "test_%s" % FILE_SUFFIX_REGEX)
def test_first_character_dot(self):
"""
File names with a dot as their first character don't have an extension,
and the underscore should get added to the end.
"""
self.storage.save("dotted.path/.test", ContentFile("1"))
self.storage.save("dotted.path/.test", ContentFile("2"))
files = sorted(os.listdir(os.path.join(self.storage_dir, "dotted.path")))
self.assertFalse(os.path.exists(os.path.join(self.storage_dir, "dotted_.path")))
self.assertEqual(files[0], ".test")
self.assertRegex(files[1], ".test_%s" % FILE_SUFFIX_REGEX)
class ContentFileStorageTestCase(unittest.TestCase):
def setUp(self):
self.storage_dir = tempfile.mkdtemp()
self.storage = FileSystemStorage(self.storage_dir)
def tearDown(self):
shutil.rmtree(self.storage_dir)
def test_content_saving(self):
"""
ContentFile can be saved correctly with the filesystem storage,
if it was initialized with either bytes or unicode content.
"""
self.storage.save("bytes.txt", ContentFile(b"content"))
self.storage.save("unicode.txt", ContentFile("español"))
@override_settings(ROOT_URLCONF="file_storage.urls")
class FileLikeObjectTestCase(LiveServerTestCase):
"""
Test file-like objects (#15644).
"""
available_apps = []
def setUp(self):
self.temp_dir = tempfile.mkdtemp()
self.storage = FileSystemStorage(location=self.temp_dir)
def tearDown(self):
shutil.rmtree(self.temp_dir)
def test_urllib_request_urlopen(self):
"""
Test the File storage API with a file-like object coming from
urllib.request.urlopen().
"""
file_like_object = urlopen(self.live_server_url + "/")
f = File(file_like_object)
stored_filename = self.storage.save("remote_file.html", f)
remote_file = urlopen(self.live_server_url + "/")
with self.storage.open(stored_filename) as stored_file:
self.assertEqual(stored_file.read(), remote_file.read())
class StorageHandlerTests(SimpleTestCase):
@override_settings(
STORAGES={
"custom_storage": {
"BACKEND": "django.core.files.storage.FileSystemStorage",
},
}
)
def test_same_instance(self):
cache1 = storages["custom_storage"]
cache2 = storages["custom_storage"]
self.assertIs(cache1, cache2)
def test_defaults(self):
storages = StorageHandler()
self.assertEqual(
storages.backends,
{
DEFAULT_STORAGE_ALIAS: {
"BACKEND": "django.core.files.storage.FileSystemStorage",
},
STATICFILES_STORAGE_ALIAS: {
"BACKEND": "django.contrib.staticfiles.storage.StaticFilesStorage",
},
},
)
def test_nonexistent_alias(self):
msg = "Could not find config for 'nonexistent' in settings.STORAGES."
storages = StorageHandler()
with self.assertRaisesMessage(InvalidStorageError, msg):
storages["nonexistent"]
def test_nonexistent_backend(self):
test_storages = StorageHandler(
{
"invalid_backend": {
"BACKEND": "django.nonexistent.NonexistentBackend",
},
}
)
msg = (
"Could not find backend 'django.nonexistent.NonexistentBackend': "
"No module named 'django.nonexistent'"
)
with self.assertRaisesMessage(InvalidStorageError, msg):
test_storages["invalid_backend"]