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django/tests/file_storage/test_generate_filename.py
Sarah Boyce 8d6a20b656 Fixed #35604, Refs #35326 -- Made FileSystemStorage.exists() behaviour independent from allow_overwrite.
Partially reverts 0b33a3abc2.

Storage.exists(name) was documented to "return False if
the name is available for a new file." but return True if
the file exists. This is ambiguous in the overwrite file
case. It will now always return whether the file exists.

Thank you to Natalia Bidart and Josh Schneier for the
review.
2024-07-24 14:55:10 +02:00

250 lines
9.2 KiB
Python

import os
from django.core.exceptions import SuspiciousFileOperation
from django.core.files.base import ContentFile
from django.core.files.storage import FileSystemStorage, Storage
from django.db.models import FileField
from django.test import SimpleTestCase
class AWSS3Storage(Storage):
"""
Simulate an AWS S3 storage which uses Unix-like paths and allows any
characters in file names but where there aren't actual folders but just
keys.
"""
prefix = "mys3folder/"
def _save(self, name, content):
"""
This method is important to test that Storage.save() doesn't replace
'\' with '/' (rather FileSystemStorage.save() does).
"""
return name
def get_valid_name(self, name):
return name
def get_available_name(self, name, max_length=None):
return name
def generate_filename(self, filename):
"""
This is the method that's important to override when using S3 so that
os.path() isn't called, which would break S3 keys.
"""
return self.prefix + self.get_valid_name(filename)
class StorageGenerateFilenameTests(SimpleTestCase):
"""Tests for base Storage's generate_filename method."""
storage_class = Storage
def test_valid_names(self):
storage = self.storage_class()
name = "UnTRIVíAL @fil$ena#me!"
valid_name = storage.get_valid_name(name)
candidates = [
(name, valid_name),
(f"././././././{name}", valid_name),
(f"some/path/{name}", f"some/path/{valid_name}"),
(f"some/./path/./{name}", f"some/path/{valid_name}"),
(f"././some/././path/./{name}", f"some/path/{valid_name}"),
(f".\\.\\.\\.\\.\\.\\{name}", valid_name),
(f"some\\path\\{name}", f"some/path/{valid_name}"),
(f"some\\.\\path\\.\\{name}", f"some/path/{valid_name}"),
(f".\\.\\some\\.\\.\\path\\.\\{name}", f"some/path/{valid_name}"),
]
for name, expected in candidates:
with self.subTest(name=name):
result = storage.generate_filename(name)
self.assertEqual(result, os.path.normpath(expected))
class FileSystemStorageGenerateFilenameTests(StorageGenerateFilenameTests):
storage_class = FileSystemStorage
class GenerateFilenameStorageTests(SimpleTestCase):
def test_storage_dangerous_paths(self):
candidates = [
("/tmp/..", ".."),
("\\tmp\\..", ".."),
("/tmp/.", "."),
("\\tmp\\.", "."),
("..", ".."),
(".", "."),
("", ""),
]
s = FileSystemStorage()
s_overwrite = FileSystemStorage(allow_overwrite=True)
msg = "Could not derive file name from '%s'"
for file_name, base_name in candidates:
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg % base_name):
s.get_available_name(file_name)
with self.assertRaisesMessage(SuspiciousFileOperation, msg % base_name):
s_overwrite.get_available_name(file_name)
with self.assertRaisesMessage(SuspiciousFileOperation, msg % base_name):
s.generate_filename(file_name)
def test_storage_dangerous_paths_dir_name(self):
candidates = [
("../path", ".."),
("..\\path", ".."),
("tmp/../path", "tmp/.."),
("tmp\\..\\path", "tmp/.."),
("/tmp/../path", "/tmp/.."),
("\\tmp\\..\\path", "/tmp/.."),
]
s = FileSystemStorage()
s_overwrite = FileSystemStorage(allow_overwrite=True)
for file_name, path in candidates:
msg = "Detected path traversal attempt in '%s'" % path
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
s.get_available_name(file_name)
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
s_overwrite.get_available_name(file_name)
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
s.generate_filename(file_name)
def test_filefield_dangerous_filename(self):
candidates = [
("..", "some/folder/.."),
(".", "some/folder/."),
("", "some/folder/"),
("???", "???"),
("$.$.$", "$.$.$"),
]
f = FileField(upload_to="some/folder/")
for file_name, msg_file_name in candidates:
msg = f"Could not derive file name from '{msg_file_name}'"
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
f.generate_filename(None, file_name)
def test_filefield_dangerous_filename_dot_segments(self):
f = FileField(upload_to="some/folder/")
msg = "Detected path traversal attempt in 'some/folder/../path'"
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
f.generate_filename(None, "../path")
def test_filefield_generate_filename_absolute_path(self):
f = FileField(upload_to="some/folder/")
candidates = [
"/tmp/path",
"/tmp/../path",
]
for file_name in candidates:
msg = f"Detected path traversal attempt in '{file_name}'"
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
f.generate_filename(None, file_name)
def test_filefield_generate_filename(self):
f = FileField(upload_to="some/folder/")
self.assertEqual(
f.generate_filename(None, "test with space.txt"),
os.path.normpath("some/folder/test_with_space.txt"),
)
def test_filefield_generate_filename_with_upload_to(self):
def upload_to(instance, filename):
return "some/folder/" + filename
f = FileField(upload_to=upload_to)
self.assertEqual(
f.generate_filename(None, "test with space.txt"),
os.path.normpath("some/folder/test_with_space.txt"),
)
def test_filefield_generate_filename_upload_to_overrides_dangerous_filename(self):
def upload_to(instance, filename):
return "test.txt"
f = FileField(upload_to=upload_to)
candidates = [
"/tmp/.",
"/tmp/..",
"/tmp/../path",
"/tmp/path",
"some/folder/",
"some/folder/.",
"some/folder/..",
"some/folder/???",
"some/folder/$.$.$",
"some/../test.txt",
"",
]
for file_name in candidates:
with self.subTest(file_name=file_name):
self.assertEqual(f.generate_filename(None, file_name), "test.txt")
def test_filefield_generate_filename_upload_to_absolute_path(self):
def upload_to(instance, filename):
return "/tmp/" + filename
f = FileField(upload_to=upload_to)
candidates = [
"path",
"../path",
"???",
"$.$.$",
]
for file_name in candidates:
msg = f"Detected path traversal attempt in '/tmp/{file_name}'"
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
f.generate_filename(None, file_name)
def test_filefield_generate_filename_upload_to_dangerous_filename(self):
def upload_to(instance, filename):
return "/tmp/" + filename
f = FileField(upload_to=upload_to)
candidates = ["..", ".", ""]
for file_name in candidates:
msg = f"Could not derive file name from '/tmp/{file_name}'"
with self.subTest(file_name=file_name):
with self.assertRaisesMessage(SuspiciousFileOperation, msg):
f.generate_filename(None, file_name)
def test_filefield_awss3_storage(self):
"""
Simulate a FileField with an S3 storage which uses keys rather than
folders and names. FileField and Storage shouldn't have any os.path()
calls that break the key.
"""
storage = AWSS3Storage()
folder = "not/a/folder/"
f = FileField(upload_to=folder, storage=storage)
key = "my-file-key\\with odd characters"
data = ContentFile("test")
expected_key = AWSS3Storage.prefix + folder + key
# Simulate call to f.save()
result_key = f.generate_filename(None, key)
self.assertEqual(result_key, expected_key)
result_key = storage.save(result_key, data)
self.assertEqual(result_key, expected_key)
# Repeat test with a callable.
def upload_to(instance, filename):
# Return a non-normalized path on purpose.
return folder + filename
f = FileField(upload_to=upload_to, storage=storage)
# Simulate call to f.save()
result_key = f.generate_filename(None, key)
self.assertEqual(result_key, expected_key)
result_key = storage.save(result_key, data)
self.assertEqual(result_key, expected_key)