Test/linux-devkit/sysroots/x86_64-arago-linux/usr/lib/python2.7/test/test_zipfile.py

# We can test part of the module without zlib.
try:
    import zlib
except ImportError:
    zlib = None

import os
import io
import sys
import time
import struct
import zipfile
import unittest

from StringIO import StringIO
from tempfile import TemporaryFile
from random import randint, random, getrandbits
from unittest import skipUnless

from test.test_support import TESTFN, TESTFN_UNICODE, TESTFN_ENCODING, \
                              run_unittest, findfile, unlink, rmtree, check_warnings
try:
    TESTFN_UNICODE.encode(TESTFN_ENCODING)
except (UnicodeError, TypeError):
    # Either the file system encoding is None, or the file name
    # cannot be encoded in the file system encoding.
    TESTFN_UNICODE = None

TESTFN2 = TESTFN + "2"
TESTFNDIR = TESTFN + "d"
FIXEDTEST_SIZE = 1000

SMALL_TEST_DATA = [('_ziptest1', '1q2w3e4r5t'),
                   ('ziptest2dir/_ziptest2', 'qawsedrftg'),
                   ('ziptest2dir/ziptest3dir/_ziptest3', 'azsxdcfvgb'),
                   ('ziptest2dir/ziptest3dir/ziptest4dir/_ziptest3', '6y7u8i9o0p')]

def getrandbytes(size):
    return bytes(bytearray.fromhex('%0*x' % (2 * size, getrandbits(8 * size))))

class TestsWithSourceFile(unittest.TestCase):
    def setUp(self):
        self.line_gen = ["Zipfile test line %d. random float: %f" % (i, random())
                         for i in xrange(FIXEDTEST_SIZE)]
        self.data = '\n'.join(self.line_gen) + '\n'

        # Make a source file with some lines
        with open(TESTFN, "wb") as fp:
            fp.write(self.data)

    def make_test_archive(self, f, compression):
        # Create the ZIP archive
        with zipfile.ZipFile(f, "w", compression) as zipfp:
            zipfp.write(TESTFN, "another.name")
            zipfp.write(TESTFN, TESTFN)
            zipfp.writestr("strfile", self.data)

    def zip_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            self.assertEqual(zipfp.read(TESTFN), self.data)
            self.assertEqual(zipfp.read("another.name"), self.data)
            self.assertEqual(zipfp.read("strfile"), self.data)

            # Print the ZIP directory
            fp = StringIO()
            stdout = sys.stdout
            try:
                sys.stdout = fp
                zipfp.printdir()
            finally:
                sys.stdout = stdout

            directory = fp.getvalue()
            lines = directory.splitlines()
            self.assertEqual(len(lines), 4) # Number of files + header

            self.assertIn('File Name', lines[0])
            self.assertIn('Modified', lines[0])
            self.assertIn('Size', lines[0])

            fn, date, time_, size = lines[1].split()
            self.assertEqual(fn, 'another.name')
            self.assertTrue(time.strptime(date, '%Y-%m-%d'))
            self.assertTrue(time.strptime(time_, '%H:%M:%S'))
            self.assertEqual(size, str(len(self.data)))

            # Check the namelist
            names = zipfp.namelist()
            self.assertEqual(len(names), 3)
            self.assertIn(TESTFN, names)
            self.assertIn("another.name", names)
            self.assertIn("strfile", names)

            # Check infolist
            infos = zipfp.infolist()
            names = [i.filename for i in infos]
            self.assertEqual(len(names), 3)
            self.assertIn(TESTFN, names)
            self.assertIn("another.name", names)
            self.assertIn("strfile", names)
            for i in infos:
                self.assertEqual(i.file_size, len(self.data))

            # check getinfo
            for nm in (TESTFN, "another.name", "strfile"):
                info = zipfp.getinfo(nm)
                self.assertEqual(info.filename, nm)
                self.assertEqual(info.file_size, len(self.data))

            # Check that testzip doesn't raise an exception
            zipfp.testzip()

    def test_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test(f, zipfile.ZIP_STORED)

    def zip_open_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            zipdata1 = []
            with zipfp.open(TESTFN) as zipopen1:
                while True:
                    read_data = zipopen1.read(256)
                    if not read_data:
                        break
                    zipdata1.append(read_data)

            zipdata2 = []
            with zipfp.open("another.name") as zipopen2:
                while True:
                    read_data = zipopen2.read(256)
                    if not read_data:
                        break
                    zipdata2.append(read_data)

            self.assertEqual(''.join(zipdata1), self.data)
            self.assertEqual(''.join(zipdata2), self.data)

    def test_open_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_open_test(f, zipfile.ZIP_STORED)

    def test_open_via_zip_info(self):
        # Create the ZIP archive
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            zipfp.writestr("name", "foo")
            with check_warnings(('', UserWarning)):
                zipfp.writestr("name", "bar")
            self.assertEqual(zipfp.namelist(), ["name"] * 2)

        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            infos = zipfp.infolist()
            data = ""
            for info in infos:
                with zipfp.open(info) as f:
                    data += f.read()
            self.assertTrue(data == "foobar" or data == "barfoo")
            data = ""
            for info in infos:
                data += zipfp.read(info)
            self.assertTrue(data == "foobar" or data == "barfoo")

    def zip_random_open_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            zipdata1 = []
            with zipfp.open(TESTFN) as zipopen1:
                while True:
                    read_data = zipopen1.read(randint(1, 1024))
                    if not read_data:
                        break
                    zipdata1.append(read_data)

            self.assertEqual(''.join(zipdata1), self.data)

    def test_random_open_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_random_open_test(f, zipfile.ZIP_STORED)

    def test_universal_readaheads(self):
        f = StringIO()

        data = 'a\r\n' * 16 * 1024
        with zipfile.ZipFile(f, 'w', zipfile.ZIP_STORED) as zipfp:
            zipfp.writestr(TESTFN, data)

        data2 = ''
        with zipfile.ZipFile(f, 'r') as zipfp:
            with zipfp.open(TESTFN, 'rU') as zipopen:
                for line in zipopen:
                    data2 += line

        self.assertEqual(data, data2.replace('\n', '\r\n'))

    def zip_readline_read_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            with zipfp.open(TESTFN) as zipopen:
                data = ''
                while True:
                    read = zipopen.readline()
                    if not read:
                        break
                    data += read

                    read = zipopen.read(100)
                    if not read:
                        break
                    data += read

        self.assertEqual(data, self.data)

    def zip_readline_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            with zipfp.open(TESTFN) as zipopen:
                for line in self.line_gen:
                    linedata = zipopen.readline()
                    self.assertEqual(linedata, line + '\n')

    def zip_readlines_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            with zipfp.open(TESTFN) as zo:
                ziplines = zo.readlines()
                for line, zipline in zip(self.line_gen, ziplines):
                    self.assertEqual(zipline, line + '\n')

    def zip_iterlines_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            for line, zipline in zip(self.line_gen, zipfp.open(TESTFN)):
                self.assertEqual(zipline, line + '\n')

    def test_readline_read_stored(self):
        # Issue #7610: calls to readline() interleaved with calls to read().
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readline_read_test(f, zipfile.ZIP_STORED)

    def test_readline_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readline_test(f, zipfile.ZIP_STORED)

    def test_readlines_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readlines_test(f, zipfile.ZIP_STORED)

    def test_iterlines_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_iterlines_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_open_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_open_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_random_open_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_random_open_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readline_read_deflated(self):
        # Issue #7610: calls to readline() interleaved with calls to read().
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readline_read_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readline_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readline_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readlines_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_readlines_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_iterlines_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_iterlines_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_low_compression(self):
        """Check for cases where compressed data is larger than original."""
        # Create the ZIP archive
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_DEFLATED) as zipfp:
            zipfp.writestr("strfile", '12')

        # Get an open object for strfile
        with zipfile.ZipFile(TESTFN2, "r", zipfile.ZIP_DEFLATED) as zipfp:
            with zipfp.open("strfile") as openobj:
                self.assertEqual(openobj.read(1), '1')
                self.assertEqual(openobj.read(1), '2')

    def test_absolute_arcnames(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            zipfp.write(TESTFN, "/absolute")

        with zipfile.ZipFile(TESTFN2, "r", zipfile.ZIP_STORED) as zipfp:
            self.assertEqual(zipfp.namelist(), ["absolute"])

    def test_append_to_zip_file(self):
        """Test appending to an existing zipfile."""
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            zipfp.write(TESTFN, TESTFN)

        with zipfile.ZipFile(TESTFN2, "a", zipfile.ZIP_STORED) as zipfp:
            zipfp.writestr("strfile", self.data)
            self.assertEqual(zipfp.namelist(), [TESTFN, "strfile"])

    def test_append_to_non_zip_file(self):
        """Test appending to an existing file that is not a zipfile."""
        # NOTE: this test fails if len(d) < 22 because of the first
        # line "fpin.seek(-22, 2)" in _EndRecData
        data = 'I am not a ZipFile!'*10
        with open(TESTFN2, 'wb') as f:
            f.write(data)

        with zipfile.ZipFile(TESTFN2, "a", zipfile.ZIP_STORED) as zipfp:
            zipfp.write(TESTFN, TESTFN)

        with open(TESTFN2, 'rb') as f:
            f.seek(len(data))
            with zipfile.ZipFile(f, "r") as zipfp:
                self.assertEqual(zipfp.namelist(), [TESTFN])

    def test_ignores_newline_at_end(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            zipfp.write(TESTFN, TESTFN)
        with open(TESTFN2, 'a') as f:
            f.write("\r\n\00\00\00")
        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            self.assertIsInstance(zipfp, zipfile.ZipFile)

    def test_ignores_stuff_appended_past_comments(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            zipfp.comment = b"this is a comment"
            zipfp.write(TESTFN, TESTFN)
        with open(TESTFN2, 'a') as f:
            f.write("abcdef\r\n")
        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            self.assertIsInstance(zipfp, zipfile.ZipFile)
            self.assertEqual(zipfp.comment, b"this is a comment")

    def test_write_default_name(self):
        """Check that calling ZipFile.write without arcname specified
        produces the expected result."""
        with zipfile.ZipFile(TESTFN2, "w") as zipfp:
            zipfp.write(TESTFN)
            with open(TESTFN,'r') as fid:
                self.assertEqual(zipfp.read(TESTFN), fid.read())

    @skipUnless(zlib, "requires zlib")
    def test_per_file_compression(self):
        """Check that files within a Zip archive can have different
        compression options."""
        with zipfile.ZipFile(TESTFN2, "w") as zipfp:
            zipfp.write(TESTFN, 'storeme', zipfile.ZIP_STORED)
            zipfp.write(TESTFN, 'deflateme', zipfile.ZIP_DEFLATED)
            sinfo = zipfp.getinfo('storeme')
            dinfo = zipfp.getinfo('deflateme')
            self.assertEqual(sinfo.compress_type, zipfile.ZIP_STORED)
            self.assertEqual(dinfo.compress_type, zipfile.ZIP_DEFLATED)

    def test_write_to_readonly(self):
        """Check that trying to call write() on a readonly ZipFile object
        raises a RuntimeError."""
        with zipfile.ZipFile(TESTFN2, mode="w") as zipfp:
            zipfp.writestr("somefile.txt", "bogus")

        with zipfile.ZipFile(TESTFN2, mode="r") as zipfp:
            self.assertRaises(RuntimeError, zipfp.write, TESTFN)

    def test_extract(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            for fpath, fdata in SMALL_TEST_DATA:
                zipfp.writestr(fpath, fdata)

        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            for fpath, fdata in SMALL_TEST_DATA:
                writtenfile = zipfp.extract(fpath)

                # make sure it was written to the right place
                correctfile = os.path.join(os.getcwd(), fpath)
                correctfile = os.path.normpath(correctfile)

                self.assertEqual(writtenfile, correctfile)

                # make sure correct data is in correct file
                with open(writtenfile, "rb") as fid:
                    self.assertEqual(fdata, fid.read())
                os.remove(writtenfile)

        # remove the test file subdirectories
        rmtree(os.path.join(os.getcwd(), 'ziptest2dir'))

    def test_extract_all(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            for fpath, fdata in SMALL_TEST_DATA:
                zipfp.writestr(fpath, fdata)

        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            zipfp.extractall()
            for fpath, fdata in SMALL_TEST_DATA:
                outfile = os.path.join(os.getcwd(), fpath)

                with open(outfile, "rb") as fid:
                    self.assertEqual(fdata, fid.read())
                os.remove(outfile)

        # remove the test file subdirectories
        rmtree(os.path.join(os.getcwd(), 'ziptest2dir'))

    def check_file(self, filename, content):
        self.assertTrue(os.path.isfile(filename))
        with open(filename, 'rb') as f:
            self.assertEqual(f.read(), content)

    @skipUnless(TESTFN_UNICODE, "No Unicode filesystem semantics on this platform.")
    def test_extract_unicode_filenames(self):
        fnames = [u'foo.txt', os.path.basename(TESTFN_UNICODE)]
        content = 'Test for unicode filename'
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED) as zipfp:
            for fname in fnames:
                zipfp.writestr(fname, content)

        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            for fname in fnames:
                writtenfile = zipfp.extract(fname)

                # make sure it was written to the right place
                correctfile = os.path.join(os.getcwd(), fname)
                correctfile = os.path.normpath(correctfile)
                self.assertEqual(writtenfile, correctfile)

                self.check_file(writtenfile, content)
                os.remove(writtenfile)

    def test_extract_hackers_arcnames(self):
        hacknames = [
            ('../foo/bar', 'foo/bar'),
            ('foo/../bar', 'foo/bar'),
            ('foo/../../bar', 'foo/bar'),
            ('foo/bar/..', 'foo/bar'),
            ('./../foo/bar', 'foo/bar'),
            ('/foo/bar', 'foo/bar'),
            ('/foo/../bar', 'foo/bar'),
            ('/foo/../../bar', 'foo/bar'),
        ]
        if os.path.sep == '\\':
            hacknames.extend([
                (r'..\foo\bar', 'foo/bar'),
                (r'..\/foo\/bar', 'foo/bar'),
                (r'foo/\..\/bar', 'foo/bar'),
                (r'foo\/../\bar', 'foo/bar'),
                (r'C:foo/bar', 'foo/bar'),
                (r'C:/foo/bar', 'foo/bar'),
                (r'C://foo/bar', 'foo/bar'),
                (r'C:\foo\bar', 'foo/bar'),
                (r'//conky/mountpoint/foo/bar', 'foo/bar'),
                (r'\\conky\mountpoint\foo\bar', 'foo/bar'),
                (r'///conky/mountpoint/foo/bar', 'conky/mountpoint/foo/bar'),
                (r'\\\conky\mountpoint\foo\bar', 'conky/mountpoint/foo/bar'),
                (r'//conky//mountpoint/foo/bar', 'conky/mountpoint/foo/bar'),
                (r'\\conky\\mountpoint\foo\bar', 'conky/mountpoint/foo/bar'),
                (r'//?/C:/foo/bar', 'foo/bar'),
                (r'\\?\C:\foo\bar', 'foo/bar'),
                (r'C:/../C:/foo/bar', 'C_/foo/bar'),
                (r'a:b\c<d>e|f"g?h*i', 'b/c_d_e_f_g_h_i'),
                ('../../foo../../ba..r', 'foo/ba..r'),
            ])
        else:  # Unix
            hacknames.extend([
                ('//foo/bar', 'foo/bar'),
                ('../../foo../../ba..r', 'foo../ba..r'),
                (r'foo/..\bar', r'foo/..\bar'),
            ])

        for arcname, fixedname in hacknames:
            content = b'foobar' + arcname.encode()
            with zipfile.ZipFile(TESTFN2, 'w', zipfile.ZIP_STORED) as zipfp:
                zinfo = zipfile.ZipInfo()
                # preserve backslashes
                zinfo.filename = arcname
                zinfo.external_attr = 0o600 << 16
                zipfp.writestr(zinfo, content)

            arcname = arcname.replace(os.sep, "/")
            targetpath = os.path.join('target', 'subdir', 'subsub')
            correctfile = os.path.join(targetpath, *fixedname.split('/'))

            with zipfile.ZipFile(TESTFN2, 'r') as zipfp:
                writtenfile = zipfp.extract(arcname, targetpath)
                self.assertEqual(writtenfile, correctfile,
                                 msg="extract %r" % arcname)
            self.check_file(correctfile, content)
            rmtree('target')

            with zipfile.ZipFile(TESTFN2, 'r') as zipfp:
                zipfp.extractall(targetpath)
            self.check_file(correctfile, content)
            rmtree('target')

            correctfile = os.path.join(os.getcwd(), *fixedname.split('/'))

            with zipfile.ZipFile(TESTFN2, 'r') as zipfp:
                writtenfile = zipfp.extract(arcname)
                self.assertEqual(writtenfile, correctfile,
                                 msg="extract %r" % arcname)
            self.check_file(correctfile, content)
            rmtree(fixedname.split('/')[0])

            with zipfile.ZipFile(TESTFN2, 'r') as zipfp:
                zipfp.extractall()
            self.check_file(correctfile, content)
            rmtree(fixedname.split('/')[0])

            os.remove(TESTFN2)

    def test_writestr_compression(self):
        zipfp = zipfile.ZipFile(TESTFN2, "w")
        zipfp.writestr("a.txt", "hello world", compress_type=zipfile.ZIP_STORED)
        if zlib:
            zipfp.writestr("b.txt", "hello world", compress_type=zipfile.ZIP_DEFLATED)

        info = zipfp.getinfo('a.txt')
        self.assertEqual(info.compress_type, zipfile.ZIP_STORED)

        if zlib:
            info = zipfp.getinfo('b.txt')
            self.assertEqual(info.compress_type, zipfile.ZIP_DEFLATED)


    def zip_test_writestr_permissions(self, f, compression):
        # Make sure that writestr creates files with mode 0600,
        # when it is passed a name rather than a ZipInfo instance.

        self.make_test_archive(f, compression)
        with zipfile.ZipFile(f, "r") as zipfp:
            zinfo = zipfp.getinfo('strfile')
            self.assertEqual(zinfo.external_attr, 0600 << 16)

    def test_writestr_permissions(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test_writestr_permissions(f, zipfile.ZIP_STORED)

    def test_close(self):
        """Check that the zipfile is closed after the 'with' block."""
        with zipfile.ZipFile(TESTFN2, "w") as zipfp:
            for fpath, fdata in SMALL_TEST_DATA:
                zipfp.writestr(fpath, fdata)
                self.assertTrue(zipfp.fp is not None, 'zipfp is not open')
        self.assertTrue(zipfp.fp is None, 'zipfp is not closed')

        with zipfile.ZipFile(TESTFN2, "r") as zipfp:
            self.assertTrue(zipfp.fp is not None, 'zipfp is not open')
        self.assertTrue(zipfp.fp is None, 'zipfp is not closed')

    def test_close_on_exception(self):
        """Check that the zipfile is closed if an exception is raised in the
        'with' block."""
        with zipfile.ZipFile(TESTFN2, "w") as zipfp:
            for fpath, fdata in SMALL_TEST_DATA:
                zipfp.writestr(fpath, fdata)

        try:
            with zipfile.ZipFile(TESTFN2, "r") as zipfp2:
                raise zipfile.BadZipfile()
        except zipfile.BadZipfile:
            self.assertTrue(zipfp2.fp is None, 'zipfp is not closed')

    def test_add_file_before_1980(self):
        # Set atime and mtime to 1970-01-01
        os.utime(TESTFN, (0, 0))
        with zipfile.ZipFile(TESTFN2, "w") as zipfp:
            self.assertRaises(ValueError, zipfp.write, TESTFN)

    def tearDown(self):
        unlink(TESTFN)
        unlink(TESTFN2)


class TestZip64InSmallFiles(unittest.TestCase):
    # These tests test the ZIP64 functionality without using large files,
    # see test_zipfile64 for proper tests.

    def setUp(self):
        self._limit = zipfile.ZIP64_LIMIT
        self._filecount_limit = zipfile.ZIP_FILECOUNT_LIMIT
        zipfile.ZIP64_LIMIT = 1000
        zipfile.ZIP_FILECOUNT_LIMIT = 9

        line_gen = ("Test of zipfile line %d." % i
                    for i in range(0, FIXEDTEST_SIZE))
        self.data = '\n'.join(line_gen)

        # Make a source file with some lines
        with open(TESTFN, "wb") as fp:
            fp.write(self.data)

    def large_file_exception_test(self, f, compression):
        with zipfile.ZipFile(f, "w", compression) as zipfp:
            self.assertRaises(zipfile.LargeZipFile,
                              zipfp.write, TESTFN, "another.name")

    def large_file_exception_test2(self, f, compression):
        with zipfile.ZipFile(f, "w", compression) as zipfp:
            self.assertRaises(zipfile.LargeZipFile,
                              zipfp.writestr, "another.name", self.data)

    def test_large_file_exception(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.large_file_exception_test(f, zipfile.ZIP_STORED)
            self.large_file_exception_test2(f, zipfile.ZIP_STORED)

    def zip_test(self, f, compression):
        # Create the ZIP archive
        with zipfile.ZipFile(f, "w", compression, allowZip64=True) as zipfp:
            zipfp.write(TESTFN, "another.name")
            zipfp.write(TESTFN, TESTFN)
            zipfp.writestr("strfile", self.data)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            self.assertEqual(zipfp.read(TESTFN), self.data)
            self.assertEqual(zipfp.read("another.name"), self.data)
            self.assertEqual(zipfp.read("strfile"), self.data)

            # Print the ZIP directory
            fp = StringIO()
            stdout = sys.stdout
            try:
                sys.stdout = fp
                zipfp.printdir()
            finally:
                sys.stdout = stdout

            directory = fp.getvalue()
            lines = directory.splitlines()
            self.assertEqual(len(lines), 4) # Number of files + header

            self.assertIn('File Name', lines[0])
            self.assertIn('Modified', lines[0])
            self.assertIn('Size', lines[0])

            fn, date, time_, size = lines[1].split()
            self.assertEqual(fn, 'another.name')
            self.assertTrue(time.strptime(date, '%Y-%m-%d'))
            self.assertTrue(time.strptime(time_, '%H:%M:%S'))
            self.assertEqual(size, str(len(self.data)))

            # Check the namelist
            names = zipfp.namelist()
            self.assertEqual(len(names), 3)
            self.assertIn(TESTFN, names)
            self.assertIn("another.name", names)
            self.assertIn("strfile", names)

            # Check infolist
            infos = zipfp.infolist()
            names = [i.filename for i in infos]
            self.assertEqual(len(names), 3)
            self.assertIn(TESTFN, names)
            self.assertIn("another.name", names)
            self.assertIn("strfile", names)
            for i in infos:
                self.assertEqual(i.file_size, len(self.data))

            # check getinfo
            for nm in (TESTFN, "another.name", "strfile"):
                info = zipfp.getinfo(nm)
                self.assertEqual(info.filename, nm)
                self.assertEqual(info.file_size, len(self.data))

            # Check that testzip doesn't raise an exception
            zipfp.testzip()

    def test_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test(f, zipfile.ZIP_DEFLATED)

    def test_absolute_arcnames(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_STORED,
                             allowZip64=True) as zipfp:
            zipfp.write(TESTFN, "/absolute")

        with zipfile.ZipFile(TESTFN2, "r", zipfile.ZIP_STORED) as zipfp:
            self.assertEqual(zipfp.namelist(), ["absolute"])

    def test_too_many_files(self):
        # This test checks that more than 64k files can be added to an archive,
        # and that the resulting archive can be read properly by ZipFile
        zipf = zipfile.ZipFile(TESTFN, mode="w", allowZip64=True)
        zipf.debug = 100
        numfiles = 15
        for i in range(numfiles):
            zipf.writestr("foo%08d" % i, "%d" % (i**3 % 57))
        self.assertEqual(len(zipf.namelist()), numfiles)
        zipf.close()

        zipf2 = zipfile.ZipFile(TESTFN, mode="r")
        self.assertEqual(len(zipf2.namelist()), numfiles)
        for i in range(numfiles):
            content = zipf2.read("foo%08d" % i)
            self.assertEqual(content, "%d" % (i**3 % 57))
        zipf2.close()

    def test_too_many_files_append(self):
        zipf = zipfile.ZipFile(TESTFN, mode="w", allowZip64=False)
        zipf.debug = 100
        numfiles = 9
        for i in range(numfiles):
            zipf.writestr("foo%08d" % i, "%d" % (i**3 % 57))
        self.assertEqual(len(zipf.namelist()), numfiles)
        with self.assertRaises(zipfile.LargeZipFile):
            zipf.writestr("foo%08d" % numfiles, b'')
        self.assertEqual(len(zipf.namelist()), numfiles)
        zipf.close()

        zipf = zipfile.ZipFile(TESTFN, mode="a", allowZip64=False)
        zipf.debug = 100
        self.assertEqual(len(zipf.namelist()), numfiles)
        with self.assertRaises(zipfile.LargeZipFile):
            zipf.writestr("foo%08d" % numfiles, b'')
        self.assertEqual(len(zipf.namelist()), numfiles)
        zipf.close()

        zipf = zipfile.ZipFile(TESTFN, mode="a", allowZip64=True)
        zipf.debug = 100
        self.assertEqual(len(zipf.namelist()), numfiles)
        numfiles2 = 15
        for i in range(numfiles, numfiles2):
            zipf.writestr("foo%08d" % i, "%d" % (i**3 % 57))
        self.assertEqual(len(zipf.namelist()), numfiles2)
        zipf.close()

        zipf2 = zipfile.ZipFile(TESTFN, mode="r")
        self.assertEqual(len(zipf2.namelist()), numfiles2)
        for i in range(numfiles2):
            content = zipf2.read("foo%08d" % i)
            self.assertEqual(content, "%d" % (i**3 % 57))
        zipf2.close()

    def tearDown(self):
        zipfile.ZIP64_LIMIT = self._limit
        zipfile.ZIP_FILECOUNT_LIMIT = self._filecount_limit
        unlink(TESTFN)
        unlink(TESTFN2)


class PyZipFileTests(unittest.TestCase):
    def requiresWriteAccess(self, path):
        if not os.access(path, os.W_OK):
            self.skipTest('requires write access to the installed location')
        filename = os.path.join(path, 'test_zipfile.try')
        try:
            fd = os.open(filename, os.O_WRONLY | os.O_CREAT)
            os.close(fd)
        except Exception:
            self.skipTest('requires write access to the installed location')
        unlink(filename)

    def test_write_pyfile(self):
        self.requiresWriteAccess(os.path.dirname(__file__))
        with zipfile.PyZipFile(TemporaryFile(), "w") as zipfp:
            fn = __file__
            if fn.endswith('.pyc') or fn.endswith('.pyo'):
                fn = fn[:-1]

            zipfp.writepy(fn)

            bn = os.path.basename(fn)
            self.assertNotIn(bn, zipfp.namelist())
            self.assertTrue(bn + 'o' in zipfp.namelist() or
                            bn + 'c' in zipfp.namelist())

        with zipfile.PyZipFile(TemporaryFile(), "w") as zipfp:
            fn = __file__
            if fn.endswith(('.pyc', '.pyo')):
                fn = fn[:-1]

            zipfp.writepy(fn, "testpackage")

            bn = "%s/%s" % ("testpackage", os.path.basename(fn))
            self.assertNotIn(bn, zipfp.namelist())
            self.assertTrue(bn + 'o' in zipfp.namelist() or
                            bn + 'c' in zipfp.namelist())

    def test_write_python_package(self):
        import email
        packagedir = os.path.dirname(email.__file__)
        self.requiresWriteAccess(packagedir)

        with zipfile.PyZipFile(TemporaryFile(), "w") as zipfp:
            zipfp.writepy(packagedir)

            # Check for a couple of modules at different levels of the
            # hierarchy
            names = zipfp.namelist()
            self.assertTrue('email/__init__.pyo' in names or
                            'email/__init__.pyc' in names)
            self.assertTrue('email/mime/text.pyo' in names or
                            'email/mime/text.pyc' in names)

    def test_write_python_directory(self):
        os.mkdir(TESTFN2)
        try:
            with open(os.path.join(TESTFN2, "mod1.py"), "w") as fp:
                fp.write("print(42)\n")

            with open(os.path.join(TESTFN2, "mod2.py"), "w") as fp:
                fp.write("print(42 * 42)\n")

            with open(os.path.join(TESTFN2, "mod2.txt"), "w") as fp:
                fp.write("bla bla bla\n")

            zipfp  = zipfile.PyZipFile(TemporaryFile(), "w")
            zipfp.writepy(TESTFN2)

            names = zipfp.namelist()
            self.assertTrue('mod1.pyc' in names or 'mod1.pyo' in names)
            self.assertTrue('mod2.pyc' in names or 'mod2.pyo' in names)
            self.assertNotIn('mod2.txt', names)

        finally:
            rmtree(TESTFN2)

    def test_write_non_pyfile(self):
        with zipfile.PyZipFile(TemporaryFile(), "w") as zipfp:
            with open(TESTFN, 'w') as fid:
                fid.write('most definitely not a python file')
            self.assertRaises(RuntimeError, zipfp.writepy, TESTFN)
            os.remove(TESTFN)


class OtherTests(unittest.TestCase):
    zips_with_bad_crc = {
        zipfile.ZIP_STORED: (
            b'PK\003\004\024\0\0\0\0\0 \213\212;:r'
            b'\253\377\f\0\0\0\f\0\0\0\005\0\0\000af'
            b'ilehello,AworldP'
            b'K\001\002\024\003\024\0\0\0\0\0 \213\212;:'
            b'r\253\377\f\0\0\0\f\0\0\0\005\0\0\0\0'
            b'\0\0\0\0\0\0\0\200\001\0\0\0\000afi'
            b'lePK\005\006\0\0\0\0\001\0\001\0003\000'
            b'\0\0/\0\0\0\0\0'),
        zipfile.ZIP_DEFLATED: (
            b'PK\x03\x04\x14\x00\x00\x00\x08\x00n}\x0c=FA'
            b'KE\x10\x00\x00\x00n\x00\x00\x00\x05\x00\x00\x00af'
            b'ile\xcbH\xcd\xc9\xc9W(\xcf/\xcaI\xc9\xa0'
            b'=\x13\x00PK\x01\x02\x14\x03\x14\x00\x00\x00\x08\x00n'
            b'}\x0c=FAKE\x10\x00\x00\x00n\x00\x00\x00\x05'
            b'\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x80\x01\x00\x00\x00'
            b'\x00afilePK\x05\x06\x00\x00\x00\x00\x01\x00'
            b'\x01\x003\x00\x00\x003\x00\x00\x00\x00\x00'),
    }

    def test_unicode_filenames(self):
        with zipfile.ZipFile(TESTFN, "w") as zf:
            zf.writestr(u"foo.txt", "Test for unicode filename")
            zf.writestr(u"\xf6.txt", "Test for unicode filename")
            self.assertIsInstance(zf.infolist()[0].filename, unicode)

        with zipfile.ZipFile(TESTFN, "r") as zf:
            self.assertEqual(zf.filelist[0].filename, "foo.txt")
            self.assertEqual(zf.filelist[1].filename, u"\xf6.txt")

    def test_create_non_existent_file_for_append(self):
        if os.path.exists(TESTFN):
            os.unlink(TESTFN)

        filename = 'testfile.txt'
        content = 'hello, world. this is some content.'

        try:
            with zipfile.ZipFile(TESTFN, 'a') as zf:
                zf.writestr(filename, content)
        except IOError:
            self.fail('Could not append data to a non-existent zip file.')

        self.assertTrue(os.path.exists(TESTFN))

        with zipfile.ZipFile(TESTFN, 'r') as zf:
            self.assertEqual(zf.read(filename), content)

    def test_close_erroneous_file(self):
        # This test checks that the ZipFile constructor closes the file object
        # it opens if there's an error in the file.  If it doesn't, the
        # traceback holds a reference to the ZipFile object and, indirectly,
        # the file object.
        # On Windows, this causes the os.unlink() call to fail because the
        # underlying file is still open.  This is SF bug #412214.
        #
        with open(TESTFN, "w") as fp:
            fp.write("this is not a legal zip file\n")
        try:
            zf = zipfile.ZipFile(TESTFN)
        except zipfile.BadZipfile:
            pass

    def test_is_zip_erroneous_file(self):
        """Check that is_zipfile() correctly identifies non-zip files."""
        # - passing a filename
        with open(TESTFN, "w") as fp:
            fp.write("this is not a legal zip file\n")
        chk = zipfile.is_zipfile(TESTFN)
        self.assertFalse(chk)
        # - passing a file object
        with open(TESTFN, "rb") as fp:
            chk = zipfile.is_zipfile(fp)
            self.assertTrue(not chk)
        # - passing a file-like object
        fp = StringIO()
        fp.write("this is not a legal zip file\n")
        chk = zipfile.is_zipfile(fp)
        self.assertTrue(not chk)
        fp.seek(0, 0)
        chk = zipfile.is_zipfile(fp)
        self.assertTrue(not chk)

    def test_damaged_zipfile(self):
        """Check that zipfiles with missing bytes at the end raise BadZipFile."""
        # - Create a valid zip file
        fp = io.BytesIO()
        with zipfile.ZipFile(fp, mode="w") as zipf:
            zipf.writestr("foo.txt", b"O, for a Muse of Fire!")
        zipfiledata = fp.getvalue()

        # - Now create copies of it missing the last N bytes and make sure
        #   a BadZipFile exception is raised when we try to open it
        for N in range(len(zipfiledata)):
            fp = io.BytesIO(zipfiledata[:N])
            self.assertRaises(zipfile.BadZipfile, zipfile.ZipFile, fp)

    def test_is_zip_valid_file(self):
        """Check that is_zipfile() correctly identifies zip files."""
        # - passing a filename
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")
        chk = zipfile.is_zipfile(TESTFN)
        self.assertTrue(chk)
        # - passing a file object
        with open(TESTFN, "rb") as fp:
            chk = zipfile.is_zipfile(fp)
            self.assertTrue(chk)
            fp.seek(0, 0)
            zip_contents = fp.read()
        # - passing a file-like object
        fp = StringIO()
        fp.write(zip_contents)
        chk = zipfile.is_zipfile(fp)
        self.assertTrue(chk)
        fp.seek(0, 0)
        chk = zipfile.is_zipfile(fp)
        self.assertTrue(chk)

    def test_non_existent_file_raises_IOError(self):
        # make sure we don't raise an AttributeError when a partially-constructed
        # ZipFile instance is finalized; this tests for regression on SF tracker
        # bug #403871.

        # The bug we're testing for caused an AttributeError to be raised
        # when a ZipFile instance was created for a file that did not
        # exist; the .fp member was not initialized but was needed by the
        # __del__() method.  Since the AttributeError is in the __del__(),
        # it is ignored, but the user should be sufficiently annoyed by
        # the message on the output that regression will be noticed
        # quickly.
        self.assertRaises(IOError, zipfile.ZipFile, TESTFN)

    def test_empty_file_raises_BadZipFile(self):
        with open(TESTFN, 'w') as f:
            pass
        self.assertRaises(zipfile.BadZipfile, zipfile.ZipFile, TESTFN)

        with open(TESTFN, 'w') as fp:
            fp.write("short file")
        self.assertRaises(zipfile.BadZipfile, zipfile.ZipFile, TESTFN)

    def test_closed_zip_raises_RuntimeError(self):
        """Verify that testzip() doesn't swallow inappropriate exceptions."""
        data = StringIO()
        with zipfile.ZipFile(data, mode="w") as zipf:
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")

        # This is correct; calling .read on a closed ZipFile should raise
        # a RuntimeError, and so should calling .testzip.  An earlier
        # version of .testzip would swallow this exception (and any other)
        # and report that the first file in the archive was corrupt.
        self.assertRaises(RuntimeError, zipf.read, "foo.txt")
        self.assertRaises(RuntimeError, zipf.open, "foo.txt")
        self.assertRaises(RuntimeError, zipf.testzip)
        self.assertRaises(RuntimeError, zipf.writestr, "bogus.txt", "bogus")
        with open(TESTFN, 'w') as fid:
            fid.write('zipfile test data')
            self.assertRaises(RuntimeError, zipf.write, TESTFN)

    def test_bad_constructor_mode(self):
        """Check that bad modes passed to ZipFile constructor are caught."""
        self.assertRaises(RuntimeError, zipfile.ZipFile, TESTFN, "q")

    def test_bad_open_mode(self):
        """Check that bad modes passed to ZipFile.open are caught."""
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")

        with zipfile.ZipFile(TESTFN, mode="r") as zipf:
        # read the data to make sure the file is there
            zipf.read("foo.txt")
            self.assertRaises(RuntimeError, zipf.open, "foo.txt", "q")

    def test_read0(self):
        """Check that calling read(0) on a ZipExtFile object returns an empty
        string and doesn't advance file pointer."""
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")
            # read the data to make sure the file is there
            with zipf.open("foo.txt") as f:
                for i in xrange(FIXEDTEST_SIZE):
                    self.assertEqual(f.read(0), '')

                self.assertEqual(f.read(), "O, for a Muse of Fire!")

    def test_open_non_existent_item(self):
        """Check that attempting to call open() for an item that doesn't
        exist in the archive raises a RuntimeError."""
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            self.assertRaises(KeyError, zipf.open, "foo.txt", "r")

    def test_bad_compression_mode(self):
        """Check that bad compression methods passed to ZipFile.open are
        caught."""
        self.assertRaises(RuntimeError, zipfile.ZipFile, TESTFN, "w", -1)

    def test_unsupported_compression(self):
        # data is declared as shrunk, but actually deflated
        data = (b'PK\x03\x04.\x00\x00\x00\x01\x00\xe4C\xa1@\x00\x00\x00'
        b'\x00\x02\x00\x00\x00\x00\x00\x00\x00\x01\x00\x00\x00x\x03\x00PK\x01'
        b'\x02.\x03.\x00\x00\x00\x01\x00\xe4C\xa1@\x00\x00\x00\x00\x02\x00\x00'
        b'\x00\x00\x00\x00\x00\x01\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00'
        b'\x80\x01\x00\x00\x00\x00xPK\x05\x06\x00\x00\x00\x00\x01\x00\x01\x00'
        b'/\x00\x00\x00!\x00\x00\x00\x00\x00')
        with zipfile.ZipFile(io.BytesIO(data), 'r') as zipf:
            self.assertRaises(NotImplementedError, zipf.open, 'x')

    def test_null_byte_in_filename(self):
        """Check that a filename containing a null byte is properly
        terminated."""
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.writestr("foo.txt\x00qqq", "O, for a Muse of Fire!")
            self.assertEqual(zipf.namelist(), ['foo.txt'])

    def test_struct_sizes(self):
        """Check that ZIP internal structure sizes are calculated correctly."""
        self.assertEqual(zipfile.sizeEndCentDir, 22)
        self.assertEqual(zipfile.sizeCentralDir, 46)
        self.assertEqual(zipfile.sizeEndCentDir64, 56)
        self.assertEqual(zipfile.sizeEndCentDir64Locator, 20)

    def test_comments(self):
        """Check that comments on the archive are handled properly."""

        # check default comment is empty
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            self.assertEqual(zipf.comment, '')
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")

        with zipfile.ZipFile(TESTFN, mode="r") as zipf:
            self.assertEqual(zipf.comment, '')

        # check a simple short comment
        comment = 'Bravely taking to his feet, he beat a very brave retreat.'
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.comment = comment
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")
        with zipfile.ZipFile(TESTFN, mode="r") as zipf:
            self.assertEqual(zipf.comment, comment)

        # check a comment of max length
        comment2 = ''.join(['%d' % (i**3 % 10) for i in xrange((1 << 16)-1)])
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            zipf.comment = comment2
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")

        with zipfile.ZipFile(TESTFN, mode="r") as zipf:
            self.assertEqual(zipf.comment, comment2)

        # check a comment that is too long is truncated
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            with check_warnings(('', UserWarning)):
                zipf.comment = comment2 + 'oops'
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")
        with zipfile.ZipFile(TESTFN, mode="r") as zipf:
            self.assertEqual(zipf.comment, comment2)

    def test_change_comment_in_empty_archive(self):
        with zipfile.ZipFile(TESTFN, "a", zipfile.ZIP_STORED) as zipf:
            self.assertFalse(zipf.filelist)
            zipf.comment = b"this is a comment"
        with zipfile.ZipFile(TESTFN, "r") as zipf:
            self.assertEqual(zipf.comment, b"this is a comment")

    def test_change_comment_in_nonempty_archive(self):
        with zipfile.ZipFile(TESTFN, "w", zipfile.ZIP_STORED) as zipf:
            zipf.writestr("foo.txt", "O, for a Muse of Fire!")
        with zipfile.ZipFile(TESTFN, "a", zipfile.ZIP_STORED) as zipf:
            self.assertTrue(zipf.filelist)
            zipf.comment = b"this is a comment"
        with zipfile.ZipFile(TESTFN, "r") as zipf:
            self.assertEqual(zipf.comment, b"this is a comment")

    def check_testzip_with_bad_crc(self, compression):
        """Tests that files with bad CRCs return their name from testzip."""
        zipdata = self.zips_with_bad_crc[compression]

        with zipfile.ZipFile(io.BytesIO(zipdata), mode="r") as zipf:
            # testzip returns the name of the first corrupt file, or None
            self.assertEqual('afile', zipf.testzip())

    def test_testzip_with_bad_crc_stored(self):
        self.check_testzip_with_bad_crc(zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_testzip_with_bad_crc_deflated(self):
        self.check_testzip_with_bad_crc(zipfile.ZIP_DEFLATED)

    def check_read_with_bad_crc(self, compression):
        """Tests that files with bad CRCs raise a BadZipfile exception when read."""
        zipdata = self.zips_with_bad_crc[compression]

        # Using ZipFile.read()
        with zipfile.ZipFile(io.BytesIO(zipdata), mode="r") as zipf:
            self.assertRaises(zipfile.BadZipfile, zipf.read, 'afile')

        # Using ZipExtFile.read()
        with zipfile.ZipFile(io.BytesIO(zipdata), mode="r") as zipf:
            with zipf.open('afile', 'r') as corrupt_file:
                self.assertRaises(zipfile.BadZipfile, corrupt_file.read)

        # Same with small reads (in order to exercise the buffering logic)
        with zipfile.ZipFile(io.BytesIO(zipdata), mode="r") as zipf:
            with zipf.open('afile', 'r') as corrupt_file:
                corrupt_file.MIN_READ_SIZE = 2
                with self.assertRaises(zipfile.BadZipfile):
                    while corrupt_file.read(2):
                        pass

    def test_read_with_bad_crc_stored(self):
        self.check_read_with_bad_crc(zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_read_with_bad_crc_deflated(self):
        self.check_read_with_bad_crc(zipfile.ZIP_DEFLATED)

    def check_read_return_size(self, compression):
        # Issue #9837: ZipExtFile.read() shouldn't return more bytes
        # than requested.
        for test_size in (1, 4095, 4096, 4097, 16384):
            file_size = test_size + 1
            junk = getrandbytes(file_size)
            with zipfile.ZipFile(io.BytesIO(), "w", compression) as zipf:
                zipf.writestr('foo', junk)
                with zipf.open('foo', 'r') as fp:
                    buf = fp.read(test_size)
                    self.assertEqual(len(buf), test_size)

    def test_read_return_size_stored(self):
        self.check_read_return_size(zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_read_return_size_deflated(self):
        self.check_read_return_size(zipfile.ZIP_DEFLATED)

    def test_empty_zipfile(self):
        # Check that creating a file in 'w' or 'a' mode and closing without
        # adding any files to the archives creates a valid empty ZIP file
        with zipfile.ZipFile(TESTFN, mode="w") as zipf:
            pass
        try:
            zipf = zipfile.ZipFile(TESTFN, mode="r")
            zipf.close()
        except zipfile.BadZipfile:
            self.fail("Unable to create empty ZIP file in 'w' mode")

        with zipfile.ZipFile(TESTFN, mode="a") as zipf:
            pass
        try:
            zipf = zipfile.ZipFile(TESTFN, mode="r")
            zipf.close()
        except:
            self.fail("Unable to create empty ZIP file in 'a' mode")

    def test_open_empty_file(self):
        # Issue 1710703: Check that opening a file with less than 22 bytes
        # raises a BadZipfile exception (rather than the previously unhelpful
        # IOError)
        with open(TESTFN, 'w') as f:
            pass
        self.assertRaises(zipfile.BadZipfile, zipfile.ZipFile, TESTFN, 'r')

    def test_create_zipinfo_before_1980(self):
        self.assertRaises(ValueError,
                          zipfile.ZipInfo, 'seventies', (1979, 1, 1, 0, 0, 0))

    def test_zipfile_with_short_extra_field(self):
        """If an extra field in the header is less than 4 bytes, skip it."""
        zipdata = (
            b'PK\x03\x04\x14\x00\x00\x00\x00\x00\x93\x9b\xad@\x8b\x9e'
            b'\xd9\xd3\x01\x00\x00\x00\x01\x00\x00\x00\x03\x00\x03\x00ab'
            b'c\x00\x00\x00APK\x01\x02\x14\x03\x14\x00\x00\x00\x00'
            b'\x00\x93\x9b\xad@\x8b\x9e\xd9\xd3\x01\x00\x00\x00\x01\x00\x00'
            b'\x00\x03\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\xa4\x81\x00'
            b'\x00\x00\x00abc\x00\x00PK\x05\x06\x00\x00\x00\x00'
            b'\x01\x00\x01\x003\x00\x00\x00%\x00\x00\x00\x00\x00'
        )
        with zipfile.ZipFile(io.BytesIO(zipdata), 'r') as zipf:
            # testzip returns the name of the first corrupt file, or None
            self.assertIsNone(zipf.testzip())

    def tearDown(self):
        unlink(TESTFN)
        unlink(TESTFN2)


class DecryptionTests(unittest.TestCase):
    """Check that ZIP decryption works. Since the library does not
    support encryption at the moment, we use a pre-generated encrypted
    ZIP file."""

    data = (
    'PK\x03\x04\x14\x00\x01\x00\x00\x00n\x92i.#y\xef?&\x00\x00\x00\x1a\x00'
    '\x00\x00\x08\x00\x00\x00test.txt\xfa\x10\xa0gly|\xfa-\xc5\xc0=\xf9y'
    '\x18\xe0\xa8r\xb3Z}Lg\xbc\xae\xf9|\x9b\x19\xe4\x8b\xba\xbb)\x8c\xb0\xdbl'
    'PK\x01\x02\x14\x00\x14\x00\x01\x00\x00\x00n\x92i.#y\xef?&\x00\x00\x00'
    '\x1a\x00\x00\x00\x08\x00\x00\x00\x00\x00\x00\x00\x01\x00 \x00\xb6\x81'
    '\x00\x00\x00\x00test.txtPK\x05\x06\x00\x00\x00\x00\x01\x00\x01\x006\x00'
    '\x00\x00L\x00\x00\x00\x00\x00' )
    data2 = (
    'PK\x03\x04\x14\x00\t\x00\x08\x00\xcf}38xu\xaa\xb2\x14\x00\x00\x00\x00\x02'
    '\x00\x00\x04\x00\x15\x00zeroUT\t\x00\x03\xd6\x8b\x92G\xda\x8b\x92GUx\x04'
    '\x00\xe8\x03\xe8\x03\xc7<M\xb5a\xceX\xa3Y&\x8b{oE\xd7\x9d\x8c\x98\x02\xc0'
    'PK\x07\x08xu\xaa\xb2\x14\x00\x00\x00\x00\x02\x00\x00PK\x01\x02\x17\x03'
    '\x14\x00\t\x00\x08\x00\xcf}38xu\xaa\xb2\x14\x00\x00\x00\x00\x02\x00\x00'
    '\x04\x00\r\x00\x00\x00\x00\x00\x00\x00\x00\x00\xa4\x81\x00\x00\x00\x00ze'
    'roUT\x05\x00\x03\xd6\x8b\x92GUx\x00\x00PK\x05\x06\x00\x00\x00\x00\x01'
    '\x00\x01\x00?\x00\x00\x00[\x00\x00\x00\x00\x00' )

    plain = 'zipfile.py encryption test'
    plain2 = '\x00'*512

    def setUp(self):
        with open(TESTFN, "wb") as fp:
            fp.write(self.data)
        self.zip = zipfile.ZipFile(TESTFN, "r")
        with open(TESTFN2, "wb") as fp:
            fp.write(self.data2)
        self.zip2 = zipfile.ZipFile(TESTFN2, "r")

    def tearDown(self):
        self.zip.close()
        os.unlink(TESTFN)
        self.zip2.close()
        os.unlink(TESTFN2)

    def test_no_password(self):
        # Reading the encrypted file without password
        # must generate a RunTime exception
        self.assertRaises(RuntimeError, self.zip.read, "test.txt")
        self.assertRaises(RuntimeError, self.zip2.read, "zero")

    def test_bad_password(self):
        self.zip.setpassword("perl")
        self.assertRaises(RuntimeError, self.zip.read, "test.txt")
        self.zip2.setpassword("perl")
        self.assertRaises(RuntimeError, self.zip2.read, "zero")

    @skipUnless(zlib, "requires zlib")
    def test_good_password(self):
        self.zip.setpassword("python")
        self.assertEqual(self.zip.read("test.txt"), self.plain)
        self.zip2.setpassword("12345")
        self.assertEqual(self.zip2.read("zero"), self.plain2)


class TestsWithRandomBinaryFiles(unittest.TestCase):
    def setUp(self):
        datacount = randint(16, 64)*1024 + randint(1, 1024)
        self.data = ''.join(struct.pack('<f', random()*randint(-1000, 1000))
                            for i in xrange(datacount))

        # Make a source file with some lines
        with open(TESTFN, "wb") as fp:
            fp.write(self.data)

    def tearDown(self):
        unlink(TESTFN)
        unlink(TESTFN2)

    def make_test_archive(self, f, compression):
        # Create the ZIP archive
        with zipfile.ZipFile(f, "w", compression) as zipfp:
            zipfp.write(TESTFN, "another.name")
            zipfp.write(TESTFN, TESTFN)

    def zip_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            testdata = zipfp.read(TESTFN)
            self.assertEqual(len(testdata), len(self.data))
            self.assertEqual(testdata, self.data)
            self.assertEqual(zipfp.read("another.name"), self.data)

    def test_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_deflated(self):
        for f in (TESTFN2, TemporaryFile(), io.BytesIO()):
            self.zip_test(f, zipfile.ZIP_DEFLATED)

    def zip_open_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            zipdata1 = []
            with zipfp.open(TESTFN) as zipopen1:
                while True:
                    read_data = zipopen1.read(256)
                    if not read_data:
                        break
                    zipdata1.append(read_data)

            zipdata2 = []
            with zipfp.open("another.name") as zipopen2:
                while True:
                    read_data = zipopen2.read(256)
                    if not read_data:
                        break
                    zipdata2.append(read_data)

            testdata1 = ''.join(zipdata1)
            self.assertEqual(len(testdata1), len(self.data))
            self.assertEqual(testdata1, self.data)

            testdata2 = ''.join(zipdata2)
            self.assertEqual(len(testdata2), len(self.data))
            self.assertEqual(testdata2, self.data)

    def test_open_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_open_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_open_deflated(self):
        for f in (TESTFN2, TemporaryFile(), io.BytesIO()):
            self.zip_open_test(f, zipfile.ZIP_DEFLATED)

    def zip_random_open_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r", compression) as zipfp:
            zipdata1 = []
            with zipfp.open(TESTFN) as zipopen1:
                while True:
                    read_data = zipopen1.read(randint(1, 1024))
                    if not read_data:
                        break
                    zipdata1.append(read_data)

            testdata = ''.join(zipdata1)
            self.assertEqual(len(testdata), len(self.data))
            self.assertEqual(testdata, self.data)

    def test_random_open_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.zip_random_open_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_random_open_deflated(self):
        for f in (TESTFN2, TemporaryFile(), io.BytesIO()):
            self.zip_random_open_test(f, zipfile.ZIP_DEFLATED)


@skipUnless(zlib, "requires zlib")
class TestsWithMultipleOpens(unittest.TestCase):
    @classmethod
    def setUpClass(cls):
        cls.data1 = b'111' + getrandbytes(10000)
        cls.data2 = b'222' + getrandbytes(10000)

    def make_test_archive(self, f):
        # Create the ZIP archive
        with zipfile.ZipFile(f, "w", zipfile.ZIP_DEFLATED) as zipfp:
            zipfp.writestr('ones', self.data1)
            zipfp.writestr('twos', self.data2)

    def test_same_file(self):
        # Verify that (when the ZipFile is in control of creating file objects)
        # multiple open() calls can be made without interfering with each other.
        self.make_test_archive(TESTFN2)
        with zipfile.ZipFile(TESTFN2, mode="r") as zipf:
            with zipf.open('ones') as zopen1, zipf.open('ones') as zopen2:
                data1 = zopen1.read(500)
                data2 = zopen2.read(500)
                data1 += zopen1.read()
                data2 += zopen2.read()
            self.assertEqual(data1, data2)
            self.assertEqual(data1, self.data1)

    def test_different_file(self):
        # Verify that (when the ZipFile is in control of creating file objects)
        # multiple open() calls can be made without interfering with each other.
        self.make_test_archive(TESTFN2)
        with zipfile.ZipFile(TESTFN2, mode="r") as zipf:
            with zipf.open('ones') as zopen1, zipf.open('twos') as zopen2:
                data1 = zopen1.read(500)
                data2 = zopen2.read(500)
                data1 += zopen1.read()
                data2 += zopen2.read()
            self.assertEqual(data1, self.data1)
            self.assertEqual(data2, self.data2)

    def test_interleaved(self):
        # Verify that (when the ZipFile is in control of creating file objects)
        # multiple open() calls can be made without interfering with each other.
        self.make_test_archive(TESTFN2)
        with zipfile.ZipFile(TESTFN2, mode="r") as zipf:
            with zipf.open('ones') as zopen1:
                data1 = zopen1.read(500)
                with zipf.open('twos') as zopen2:
                    data2 = zopen2.read(500)
                    data1 += zopen1.read()
                    data2 += zopen2.read()
            self.assertEqual(data1, self.data1)
            self.assertEqual(data2, self.data2)

    def test_read_after_close(self):
        self.make_test_archive(TESTFN2)
        zopen1 = zopen2 = None
        try:
            with zipfile.ZipFile(TESTFN2, 'r') as zipf:
                zopen1 = zipf.open('ones')
                zopen2 = zipf.open('twos')
            data1 = zopen1.read(500)
            data2 = zopen2.read(500)
            data1 += zopen1.read()
            data2 += zopen2.read()
        finally:
            if zopen1:
                zopen1.close()
            if zopen2:
                zopen2.close()
        self.assertEqual(data1, self.data1)
        self.assertEqual(data2, self.data2)

    def test_read_after_write(self):
        with zipfile.ZipFile(TESTFN2, 'w', zipfile.ZIP_DEFLATED) as zipf:
            zipf.writestr('ones', self.data1)
            zipf.writestr('twos', self.data2)
            with zipf.open('ones') as zopen1:
                data1 = zopen1.read(500)
        self.assertEqual(data1, self.data1[:500])
        with zipfile.ZipFile(TESTFN2, 'r') as zipf:
            data1 = zipf.read('ones')
            data2 = zipf.read('twos')
        self.assertEqual(data1, self.data1)
        self.assertEqual(data2, self.data2)

    def test_write_after_read(self):
        with zipfile.ZipFile(TESTFN2, "w", zipfile.ZIP_DEFLATED) as zipf:
            zipf.writestr('ones', self.data1)
            with zipf.open('ones') as zopen1:
                zopen1.read(500)
                zipf.writestr('twos', self.data2)
        with zipfile.ZipFile(TESTFN2, 'r') as zipf:
            data1 = zipf.read('ones')
            data2 = zipf.read('twos')
        self.assertEqual(data1, self.data1)
        self.assertEqual(data2, self.data2)

    def test_many_opens(self):
        # Verify that read() and open() promptly close the file descriptor,
        # and don't rely on the garbage collector to free resources.
        self.make_test_archive(TESTFN2)
        with zipfile.ZipFile(TESTFN2, mode="r") as zipf:
            for x in range(100):
                zipf.read('ones')
                with zipf.open('ones') as zopen1:
                    pass
        with open(os.devnull) as f:
            self.assertLess(f.fileno(), 100)

    def tearDown(self):
        unlink(TESTFN2)


class TestWithDirectory(unittest.TestCase):
    def setUp(self):
        os.mkdir(TESTFN2)

    def test_extract_dir(self):
        with zipfile.ZipFile(findfile("zipdir.zip")) as zipf:
            zipf.extractall(TESTFN2)
        self.assertTrue(os.path.isdir(os.path.join(TESTFN2, "a")))
        self.assertTrue(os.path.isdir(os.path.join(TESTFN2, "a", "b")))
        self.assertTrue(os.path.exists(os.path.join(TESTFN2, "a", "b", "c")))

    def test_bug_6050(self):
        # Extraction should succeed if directories already exist
        os.mkdir(os.path.join(TESTFN2, "a"))
        self.test_extract_dir()

    def test_write_dir(self):
        dirpath = os.path.join(TESTFN2, "x")
        os.mkdir(dirpath)
        mode = os.stat(dirpath).st_mode & 0xFFFF
        with zipfile.ZipFile(TESTFN, "w") as zipf:
            zipf.write(dirpath)
            zinfo = zipf.filelist[0]
            self.assertTrue(zinfo.filename.endswith("/x/"))
            self.assertEqual(zinfo.external_attr, (mode << 16) | 0x10)
            zipf.write(dirpath, "y")
            zinfo = zipf.filelist[1]
            self.assertTrue(zinfo.filename, "y/")
            self.assertEqual(zinfo.external_attr, (mode << 16) | 0x10)
        with zipfile.ZipFile(TESTFN, "r") as zipf:
            zinfo = zipf.filelist[0]
            self.assertTrue(zinfo.filename.endswith("/x/"))
            self.assertEqual(zinfo.external_attr, (mode << 16) | 0x10)
            zinfo = zipf.filelist[1]
            self.assertTrue(zinfo.filename, "y/")
            self.assertEqual(zinfo.external_attr, (mode << 16) | 0x10)
            target = os.path.join(TESTFN2, "target")
            os.mkdir(target)
            zipf.extractall(target)
            self.assertTrue(os.path.isdir(os.path.join(target, "y")))
            self.assertEqual(len(os.listdir(target)), 2)

    def test_writestr_dir(self):
        os.mkdir(os.path.join(TESTFN2, "x"))
        with zipfile.ZipFile(TESTFN, "w") as zipf:
            zipf.writestr("x/", b'')
            zinfo = zipf.filelist[0]
            self.assertEqual(zinfo.filename, "x/")
            self.assertEqual(zinfo.external_attr, (0o40775 << 16) | 0x10)
        with zipfile.ZipFile(TESTFN, "r") as zipf:
            zinfo = zipf.filelist[0]
            self.assertTrue(zinfo.filename.endswith("x/"))
            self.assertEqual(zinfo.external_attr, (0o40775 << 16) | 0x10)
            target = os.path.join(TESTFN2, "target")
            os.mkdir(target)
            zipf.extractall(target)
            self.assertTrue(os.path.isdir(os.path.join(target, "x")))
            self.assertEqual(os.listdir(target), ["x"])

    def tearDown(self):
        rmtree(TESTFN2)
        if os.path.exists(TESTFN):
            unlink(TESTFN)


class UniversalNewlineTests(unittest.TestCase):
    def setUp(self):
        self.line_gen = ["Test of zipfile line %d." % i
                         for i in xrange(FIXEDTEST_SIZE)]
        self.seps = ('\r', '\r\n', '\n')
        self.arcdata, self.arcfiles = {}, {}
        for n, s in enumerate(self.seps):
            self.arcdata[s] = s.join(self.line_gen) + s
            self.arcfiles[s] = '%s-%d' % (TESTFN, n)
            with open(self.arcfiles[s], "wb") as fid:
                fid.write(self.arcdata[s])

    def make_test_archive(self, f, compression):
        # Create the ZIP archive
        with zipfile.ZipFile(f, "w", compression) as zipfp:
            for fn in self.arcfiles.values():
                zipfp.write(fn, fn)

    def read_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            for sep, fn in self.arcfiles.items():
                with zipfp.open(fn, "rU") as fp:
                    zipdata = fp.read()
                self.assertEqual(self.arcdata[sep], zipdata)

    def readline_read_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        zipfp = zipfile.ZipFile(f, "r")
        for sep, fn in self.arcfiles.items():
            with zipfp.open(fn, "rU") as zipopen:
                data = ''
                while True:
                    read = zipopen.readline()
                    if not read:
                        break
                    data += read

                    read = zipopen.read(5)
                    if not read:
                        break
                    data += read

            self.assertEqual(data, self.arcdata['\n'])

        zipfp.close()

    def readline_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            for sep, fn in self.arcfiles.items():
                with zipfp.open(fn, "rU") as zipopen:
                    for line in self.line_gen:
                        linedata = zipopen.readline()
                        self.assertEqual(linedata, line + '\n')

    def readlines_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            for sep, fn in self.arcfiles.items():
                with zipfp.open(fn, "rU") as fp:
                    ziplines = fp.readlines()
                for line, zipline in zip(self.line_gen, ziplines):
                    self.assertEqual(zipline, line + '\n')

    def iterlines_test(self, f, compression):
        self.make_test_archive(f, compression)

        # Read the ZIP archive
        with zipfile.ZipFile(f, "r") as zipfp:
            for sep, fn in self.arcfiles.items():
                with zipfp.open(fn, "rU") as fid:
                    for line, zipline in zip(self.line_gen, fid):
                        self.assertEqual(zipline, line + '\n')

    def test_read_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.read_test(f, zipfile.ZIP_STORED)

    def test_readline_read_stored(self):
        # Issue #7610: calls to readline() interleaved with calls to read().
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readline_read_test(f, zipfile.ZIP_STORED)

    def test_readline_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readline_test(f, zipfile.ZIP_STORED)

    def test_readlines_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readlines_test(f, zipfile.ZIP_STORED)

    def test_iterlines_stored(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.iterlines_test(f, zipfile.ZIP_STORED)

    @skipUnless(zlib, "requires zlib")
    def test_read_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.read_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readline_read_deflated(self):
        # Issue #7610: calls to readline() interleaved with calls to read().
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readline_read_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readline_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readline_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_readlines_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.readlines_test(f, zipfile.ZIP_DEFLATED)

    @skipUnless(zlib, "requires zlib")
    def test_iterlines_deflated(self):
        for f in (TESTFN2, TemporaryFile(), StringIO()):
            self.iterlines_test(f, zipfile.ZIP_DEFLATED)

    def tearDown(self):
        for sep, fn in self.arcfiles.items():
            os.remove(fn)
        unlink(TESTFN)
        unlink(TESTFN2)


def test_main():
    run_unittest(TestsWithSourceFile, TestZip64InSmallFiles, OtherTests,
                 PyZipFileTests, DecryptionTests, TestsWithMultipleOpens,
                 TestWithDirectory, UniversalNewlineTests,
                 TestsWithRandomBinaryFiles)

if __name__ == "__main__":
    test_main()