# # Copyright (C) 2015 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # import os import tempfile import time import unittest import zipfile import common def random_string_with_holes(size, block_size, step_size): data = ["\0"] * size for begin in range(0, size, step_size): end = begin + block_size data[begin:end] = os.urandom(block_size) return "".join(data) def get_2gb_string(): kilobytes = 1024 megabytes = 1024 * kilobytes gigabytes = 1024 * megabytes size = int(2 * gigabytes + 1) block_size = 4 * kilobytes step_size = 4 * megabytes two_gb_string = random_string_with_holes( size, block_size, step_size) return two_gb_string class CommonZipTest(unittest.TestCase): def _verify(self, zip_file, zip_file_name, arcname, contents, test_file_name=None, expected_stat=None, expected_mode=0o644, expected_compress_type=zipfile.ZIP_STORED): # Verify the stat if present. if test_file_name is not None: new_stat = os.stat(test_file_name) self.assertEqual(int(expected_stat.st_mode), int(new_stat.st_mode)) self.assertEqual(int(expected_stat.st_mtime), int(new_stat.st_mtime)) # Reopen the zip file to verify. zip_file = zipfile.ZipFile(zip_file_name, "r") # Verify the timestamp. info = zip_file.getinfo(arcname) self.assertEqual(info.date_time, (2009, 1, 1, 0, 0, 0)) # Verify the file mode. mode = (info.external_attr >> 16) & 0o777 self.assertEqual(mode, expected_mode) # Verify the compress type. self.assertEqual(info.compress_type, expected_compress_type) # Verify the zip contents. self.assertEqual(zip_file.read(arcname), contents) self.assertIsNone(zip_file.testzip()) def _test_ZipWrite(self, contents, extra_zipwrite_args=None): extra_zipwrite_args = dict(extra_zipwrite_args or {}) test_file = tempfile.NamedTemporaryFile(delete=False) test_file_name = test_file.name zip_file = tempfile.NamedTemporaryFile(delete=False) zip_file_name = zip_file.name # File names within an archive strip the leading slash. arcname = extra_zipwrite_args.get("arcname", test_file_name) if arcname[0] == "/": arcname = arcname[1:] zip_file.close() zip_file = zipfile.ZipFile(zip_file_name, "w") try: test_file.write(contents) test_file.close() expected_stat = os.stat(test_file_name) expected_mode = extra_zipwrite_args.get("perms", 0o644) expected_compress_type = extra_zipwrite_args.get("compress_type", zipfile.ZIP_STORED) time.sleep(5) # Make sure the atime/mtime will change measurably. common.ZipWrite(zip_file, test_file_name, **extra_zipwrite_args) common.ZipClose(zip_file) self._verify(zip_file, zip_file_name, arcname, contents, test_file_name, expected_stat, expected_mode, expected_compress_type) finally: os.remove(test_file_name) os.remove(zip_file_name) def _test_ZipWriteStr(self, zinfo_or_arcname, contents, extra_args=None): extra_args = dict(extra_args or {}) zip_file = tempfile.NamedTemporaryFile(delete=False) zip_file_name = zip_file.name zip_file.close() zip_file = zipfile.ZipFile(zip_file_name, "w") try: expected_compress_type = extra_args.get("compress_type", zipfile.ZIP_STORED) time.sleep(5) # Make sure the atime/mtime will change measurably. if not isinstance(zinfo_or_arcname, zipfile.ZipInfo): arcname = zinfo_or_arcname expected_mode = extra_args.get("perms", 0o644) else: arcname = zinfo_or_arcname.filename expected_mode = extra_args.get("perms", zinfo_or_arcname.external_attr >> 16) common.ZipWriteStr(zip_file, zinfo_or_arcname, contents, **extra_args) common.ZipClose(zip_file) self._verify(zip_file, zip_file_name, arcname, contents, expected_mode=expected_mode, expected_compress_type=expected_compress_type) finally: os.remove(zip_file_name) def _test_ZipWriteStr_large_file(self, large, small, extra_args=None): extra_args = dict(extra_args or {}) zip_file = tempfile.NamedTemporaryFile(delete=False) zip_file_name = zip_file.name test_file = tempfile.NamedTemporaryFile(delete=False) test_file_name = test_file.name arcname_large = test_file_name arcname_small = "bar" # File names within an archive strip the leading slash. if arcname_large[0] == "/": arcname_large = arcname_large[1:] zip_file.close() zip_file = zipfile.ZipFile(zip_file_name, "w") try: test_file.write(large) test_file.close() expected_stat = os.stat(test_file_name) expected_mode = 0o644 expected_compress_type = extra_args.get("compress_type", zipfile.ZIP_STORED) time.sleep(5) # Make sure the atime/mtime will change measurably. common.ZipWrite(zip_file, test_file_name, **extra_args) common.ZipWriteStr(zip_file, arcname_small, small, **extra_args) common.ZipClose(zip_file) # Verify the contents written by ZipWrite(). self._verify(zip_file, zip_file_name, arcname_large, large, test_file_name, expected_stat, expected_mode, expected_compress_type) # Verify the contents written by ZipWriteStr(). self._verify(zip_file, zip_file_name, arcname_small, small, expected_compress_type=expected_compress_type) finally: os.remove(zip_file_name) os.remove(test_file_name) def _test_reset_ZIP64_LIMIT(self, func, *args): default_limit = (1 << 31) - 1 self.assertEqual(default_limit, zipfile.ZIP64_LIMIT) func(*args) self.assertEqual(default_limit, zipfile.ZIP64_LIMIT) def test_ZipWrite(self): file_contents = os.urandom(1024) self._test_ZipWrite(file_contents) def test_ZipWrite_with_opts(self): file_contents = os.urandom(1024) self._test_ZipWrite(file_contents, { "arcname": "foobar", "perms": 0o777, "compress_type": zipfile.ZIP_DEFLATED, }) self._test_ZipWrite(file_contents, { "arcname": "foobar", "perms": 0o700, "compress_type": zipfile.ZIP_STORED, }) def test_ZipWrite_large_file(self): file_contents = get_2gb_string() self._test_ZipWrite(file_contents, { "compress_type": zipfile.ZIP_DEFLATED, }) def test_ZipWrite_resets_ZIP64_LIMIT(self): self._test_reset_ZIP64_LIMIT(self._test_ZipWrite, "") def test_ZipWriteStr(self): random_string = os.urandom(1024) # Passing arcname self._test_ZipWriteStr("foo", random_string) # Passing zinfo zinfo = zipfile.ZipInfo(filename="foo") self._test_ZipWriteStr(zinfo, random_string) # Timestamp in the zinfo should be overwritten. zinfo.date_time = (2015, 3, 1, 15, 30, 0) self._test_ZipWriteStr(zinfo, random_string) def test_ZipWriteStr_with_opts(self): random_string = os.urandom(1024) # Passing arcname self._test_ZipWriteStr("foo", random_string, { "perms": 0o700, "compress_type": zipfile.ZIP_DEFLATED, }) self._test_ZipWriteStr("bar", random_string, { "compress_type": zipfile.ZIP_STORED, }) # Passing zinfo zinfo = zipfile.ZipInfo(filename="foo") self._test_ZipWriteStr(zinfo, random_string, { "compress_type": zipfile.ZIP_DEFLATED, }) self._test_ZipWriteStr(zinfo, random_string, { "perms": 0o600, "compress_type": zipfile.ZIP_STORED, }) def test_ZipWriteStr_large_file(self): # zipfile.writestr() doesn't work when the str size is over 2GiB even with # the workaround. We will only test the case of writing a string into a # large archive. long_string = get_2gb_string() short_string = os.urandom(1024) self._test_ZipWriteStr_large_file(long_string, short_string, { "compress_type": zipfile.ZIP_DEFLATED, }) def test_ZipWriteStr_resets_ZIP64_LIMIT(self): self._test_reset_ZIP64_LIMIT(self._test_ZipWriteStr, "foo", "") zinfo = zipfile.ZipInfo(filename="foo") self._test_reset_ZIP64_LIMIT(self._test_ZipWriteStr, zinfo, "") def test_bug21309935(self): zip_file = tempfile.NamedTemporaryFile(delete=False) zip_file_name = zip_file.name zip_file.close() try: random_string = os.urandom(1024) zip_file = zipfile.ZipFile(zip_file_name, "w") # Default perms should be 0o644 when passing the filename. common.ZipWriteStr(zip_file, "foo", random_string) # Honor the specified perms. common.ZipWriteStr(zip_file, "bar", random_string, perms=0o755) # The perms in zinfo should be untouched. zinfo = zipfile.ZipInfo(filename="baz") zinfo.external_attr = 0o740 << 16 common.ZipWriteStr(zip_file, zinfo, random_string) # Explicitly specified perms has the priority. zinfo = zipfile.ZipInfo(filename="qux") zinfo.external_attr = 0o700 << 16 common.ZipWriteStr(zip_file, zinfo, random_string, perms=0o400) common.ZipClose(zip_file) self._verify(zip_file, zip_file_name, "foo", random_string, expected_mode=0o644) self._verify(zip_file, zip_file_name, "bar", random_string, expected_mode=0o755) self._verify(zip_file, zip_file_name, "baz", random_string, expected_mode=0o740) self._verify(zip_file, zip_file_name, "qux", random_string, expected_mode=0o400) finally: os.remove(zip_file_name)