# Copyright (C) 2003-2013 Python Software Foundation

import unittest
import plistlib
import os
import datetime
import codecs
import binascii
import collections
from test import support
from io import BytesIO

ALL_FORMATS=(plistlib.FMT_XML, plistlib.FMT_BINARY)

# The testdata is generated using Mac/Tools/plistlib_generate_testdata.py
# (which using PyObjC to control the Cocoa classes for generating plists)
TESTDATA={
    plistlib.FMT_XML: binascii.a2b_base64(b'''
        PD94bWwgdmVyc2lvbj0iMS4wIiBlbmNvZGluZz0iVVRGLTgiPz4KPCFET0NU
        WVBFIHBsaXN0IFBVQkxJQyAiLS8vQXBwbGUvL0RURCBQTElTVCAxLjAvL0VO
        IiAiaHR0cDovL3d3dy5hcHBsZS5jb20vRFREcy9Qcm9wZXJ0eUxpc3QtMS4w
        LmR0ZCI+CjxwbGlzdCB2ZXJzaW9uPSIxLjAiPgo8ZGljdD4KCTxrZXk+YUJp
        Z0ludDwva2V5PgoJPGludGVnZXI+OTIyMzM3MjAzNjg1NDc3NTc2NDwvaW50
        ZWdlcj4KCTxrZXk+YUJpZ0ludDI8L2tleT4KCTxpbnRlZ2VyPjkyMjMzNzIw
        MzY4NTQ3NzU4NTI8L2ludGVnZXI+Cgk8a2V5PmFEYXRlPC9rZXk+Cgk8ZGF0
        ZT4yMDA0LTEwLTI2VDEwOjMzOjMzWjwvZGF0ZT4KCTxrZXk+YURpY3Q8L2tl
        eT4KCTxkaWN0PgoJCTxrZXk+YUZhbHNlVmFsdWU8L2tleT4KCQk8ZmFsc2Uv
        PgoJCTxrZXk+YVRydWVWYWx1ZTwva2V5PgoJCTx0cnVlLz4KCQk8a2V5PmFV
        bmljb2RlVmFsdWU8L2tleT4KCQk8c3RyaW5nPk3DpHNzaWcsIE1hw588L3N0
        cmluZz4KCQk8a2V5PmFub3RoZXJTdHJpbmc8L2tleT4KCQk8c3RyaW5nPiZs
        dDtoZWxsbyAmYW1wOyAnaGknIHRoZXJlISZndDs8L3N0cmluZz4KCQk8a2V5
        PmRlZXBlckRpY3Q8L2tleT4KCQk8ZGljdD4KCQkJPGtleT5hPC9rZXk+CgkJ
        CTxpbnRlZ2VyPjE3PC9pbnRlZ2VyPgoJCQk8a2V5PmI8L2tleT4KCQkJPHJl
        YWw+MzIuNTwvcmVhbD4KCQkJPGtleT5jPC9rZXk+CgkJCTxhcnJheT4KCQkJ
        CTxpbnRlZ2VyPjE8L2ludGVnZXI+CgkJCQk8aW50ZWdlcj4yPC9pbnRlZ2Vy
        PgoJCQkJPHN0cmluZz50ZXh0PC9zdHJpbmc+CgkJCTwvYXJyYXk+CgkJPC9k
        aWN0PgoJPC9kaWN0PgoJPGtleT5hRmxvYXQ8L2tleT4KCTxyZWFsPjAuNTwv
        cmVhbD4KCTxrZXk+YUxpc3Q8L2tleT4KCTxhcnJheT4KCQk8c3RyaW5nPkE8
        L3N0cmluZz4KCQk8c3RyaW5nPkI8L3N0cmluZz4KCQk8aW50ZWdlcj4xMjwv
        aW50ZWdlcj4KCQk8cmVhbD4zMi41PC9yZWFsPgoJCTxhcnJheT4KCQkJPGlu
        dGVnZXI+MTwvaW50ZWdlcj4KCQkJPGludGVnZXI+MjwvaW50ZWdlcj4KCQkJ
        PGludGVnZXI+MzwvaW50ZWdlcj4KCQk8L2FycmF5PgoJPC9hcnJheT4KCTxr
        ZXk+YU5lZ2F0aXZlQmlnSW50PC9rZXk+Cgk8aW50ZWdlcj4tODAwMDAwMDAw
        MDA8L2ludGVnZXI+Cgk8a2V5PmFOZWdhdGl2ZUludDwva2V5PgoJPGludGVn
        ZXI+LTU8L2ludGVnZXI+Cgk8a2V5PmFTdHJpbmc8L2tleT4KCTxzdHJpbmc+
        RG9vZGFoPC9zdHJpbmc+Cgk8a2V5PmFuRW1wdHlEaWN0PC9rZXk+Cgk8ZGlj
        dC8+Cgk8a2V5PmFuRW1wdHlMaXN0PC9rZXk+Cgk8YXJyYXkvPgoJPGtleT5h
        bkludDwva2V5PgoJPGludGVnZXI+NzI4PC9pbnRlZ2VyPgoJPGtleT5uZXN0
        ZWREYXRhPC9rZXk+Cgk8YXJyYXk+CgkJPGRhdGE+CgkJUEd4dmRITWdiMlln
        WW1sdVlYSjVJR2QxYm1zK0FBRUNBenhzYjNSeklHOW1JR0pwYm1GeWVTQm5k
        VzVyCgkJUGdBQkFnTThiRzkwY3lCdlppQmlhVzVoY25rZ1ozVnVhejRBQVFJ
        RFBHeHZkSE1nYjJZZ1ltbHVZWEo1CgkJSUdkMWJtcytBQUVDQXp4c2IzUnpJ
        RzltSUdKcGJtRnllU0JuZFc1clBnQUJBZ004Ykc5MGN5QnZaaUJpCgkJYVc1
        aGNua2daM1Z1YXo0QUFRSURQR3h2ZEhNZ2IyWWdZbWx1WVhKNUlHZDFibXMr
        QUFFQ0F6eHNiM1J6CgkJSUc5bUlHSnBibUZ5ZVNCbmRXNXJQZ0FCQWdNOGJH
        OTBjeUJ2WmlCaWFXNWhjbmtnWjNWdWF6NEFBUUlECgkJUEd4dmRITWdiMlln
        WW1sdVlYSjVJR2QxYm1zK0FBRUNBdz09CgkJPC9kYXRhPgoJPC9hcnJheT4K
        CTxrZXk+c29tZURhdGE8L2tleT4KCTxkYXRhPgoJUEdKcGJtRnllU0JuZFc1
        clBnPT0KCTwvZGF0YT4KCTxrZXk+c29tZU1vcmVEYXRhPC9rZXk+Cgk8ZGF0
        YT4KCVBHeHZkSE1nYjJZZ1ltbHVZWEo1SUdkMWJtcytBQUVDQXp4c2IzUnpJ
        RzltSUdKcGJtRnllU0JuZFc1clBnQUJBZ004CgliRzkwY3lCdlppQmlhVzVo
        Y25rZ1ozVnVhejRBQVFJRFBHeHZkSE1nYjJZZ1ltbHVZWEo1SUdkMWJtcytB
        QUVDQXp4cwoJYjNSeklHOW1JR0pwYm1GeWVTQm5kVzVyUGdBQkFnTThiRzkw
        Y3lCdlppQmlhVzVoY25rZ1ozVnVhejRBQVFJRFBHeHYKCWRITWdiMllnWW1s
        dVlYSjVJR2QxYm1zK0FBRUNBenhzYjNSeklHOW1JR0pwYm1GeWVTQm5kVzVy
        UGdBQkFnTThiRzkwCgljeUJ2WmlCaWFXNWhjbmtnWjNWdWF6NEFBUUlEUEd4
        dmRITWdiMllnWW1sdVlYSjVJR2QxYm1zK0FBRUNBdz09Cgk8L2RhdGE+Cgk8
        a2V5PsOFYmVucmFhPC9rZXk+Cgk8c3RyaW5nPlRoYXQgd2FzIGEgdW5pY29k
        ZSBrZXkuPC9zdHJpbmc+CjwvZGljdD4KPC9wbGlzdD4K'''),
    plistlib.FMT_BINARY: binascii.a2b_base64(b'''
        YnBsaXN0MDDfEBABAgMEBQYHCAkKCwwNDg8QERITFCgpLzAxMjM0NTc2OFdh
        QmlnSW50WGFCaWdJbnQyVWFEYXRlVWFEaWN0VmFGbG9hdFVhTGlzdF8QD2FO
        ZWdhdGl2ZUJpZ0ludFxhTmVnYXRpdmVJbnRXYVN0cmluZ1thbkVtcHR5RGlj
        dFthbkVtcHR5TGlzdFVhbkludFpuZXN0ZWREYXRhWHNvbWVEYXRhXHNvbWVN
        b3JlRGF0YWcAxQBiAGUAbgByAGEAYRN/////////1BQAAAAAAAAAAIAAAAAA
        AAAsM0GcuX30AAAA1RUWFxgZGhscHR5bYUZhbHNlVmFsdWVaYVRydWVWYWx1
        ZV1hVW5pY29kZVZhbHVlXWFub3RoZXJTdHJpbmdaZGVlcGVyRGljdAgJawBN
        AOQAcwBzAGkAZwAsACAATQBhAN9fEBU8aGVsbG8gJiAnaGknIHRoZXJlIT7T
        HyAhIiMkUWFRYlFjEBEjQEBAAAAAAACjJSYnEAEQAlR0ZXh0Iz/gAAAAAAAA
        pSorLCMtUUFRQhAMoyUmLhADE////+1foOAAE//////////7VkRvb2RhaNCg
        EQLYoTZPEPo8bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmlu
        YXJ5IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBndW5rPgABAgM8bG90cyBv
        ZiBiaW5hcnkgZ3Vuaz4AAQIDPGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxs
        b3RzIG9mIGJpbmFyeSBndW5rPgABAgM8bG90cyBvZiBiaW5hcnkgZ3Vuaz4A
        AQIDPGxvdHMgb2YgYmluYXJ5IGd1bms+AAECAzxsb3RzIG9mIGJpbmFyeSBn
        dW5rPgABAgM8bG90cyBvZiBiaW5hcnkgZ3Vuaz4AAQIDTTxiaW5hcnkgZ3Vu
        az5fEBdUaGF0IHdhcyBhIHVuaWNvZGUga2V5LgAIACsAMwA8AEIASABPAFUA
        ZwB0AHwAiACUAJoApQCuALsAygDTAOQA7QD4AQQBDwEdASsBNgE3ATgBTwFn
        AW4BcAFyAXQBdgF/AYMBhQGHAYwBlQGbAZ0BnwGhAaUBpwGwAbkBwAHBAcIB
        xQHHAsQC0gAAAAAAAAIBAAAAAAAAADkAAAAAAAAAAAAAAAAAAALs'''),
}


class TestPlistlib(unittest.TestCase):

    def tearDown(self):
        try:
            os.unlink(support.TESTFN)
        except:
            pass

    def _create(self, fmt=None):
        pl = dict(
            aString="Doodah",
            aList=["A", "B", 12, 32.5, [1, 2, 3]],
            aFloat = 0.5,
            anInt = 728,
            aBigInt = 2 ** 63 - 44,
            aBigInt2 = 2 ** 63 + 44,
            aNegativeInt = -5,
            aNegativeBigInt = -80000000000,
            aDict=dict(
                anotherString="<hello & 'hi' there!>",
                aUnicodeValue='M\xe4ssig, Ma\xdf',
                aTrueValue=True,
                aFalseValue=False,
                deeperDict=dict(a=17, b=32.5, c=[1, 2, "text"]),
            ),
            someData = b"<binary gunk>",
            someMoreData = b"<lots of binary gunk>\0\1\2\3" * 10,
            nestedData = [b"<lots of binary gunk>\0\1\2\3" * 10],
            aDate = datetime.datetime(2004, 10, 26, 10, 33, 33),
            anEmptyDict = dict(),
            anEmptyList = list()
        )
        pl['\xc5benraa'] = "That was a unicode key."
        return pl

    def test_create(self):
        pl = self._create()
        self.assertEqual(pl["aString"], "Doodah")
        self.assertEqual(pl["aDict"]["aFalseValue"], False)

    def test_io(self):
        pl = self._create()
        with open(support.TESTFN, 'wb') as fp:
            plistlib.dump(pl, fp)

        with open(support.TESTFN, 'rb') as fp:
            pl2 = plistlib.load(fp)

        self.assertEqual(dict(pl), dict(pl2))

        self.assertRaises(AttributeError, plistlib.dump, pl, 'filename')
        self.assertRaises(AttributeError, plistlib.load, 'filename')

    def test_invalid_type(self):
        pl = [ object() ]

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                self.assertRaises(TypeError, plistlib.dumps, pl, fmt=fmt)

    def test_int(self):
        for pl in [0, 2**8-1, 2**8, 2**16-1, 2**16, 2**32-1, 2**32,
                   2**63-1, 2**64-1, 1, -2**63]:
            for fmt in ALL_FORMATS:
                with self.subTest(pl=pl, fmt=fmt):
                    data = plistlib.dumps(pl, fmt=fmt)
                    pl2 = plistlib.loads(data)
                    self.assertIsInstance(pl2, int)
                    self.assertEqual(pl, pl2)
                    data2 = plistlib.dumps(pl2, fmt=fmt)
                    self.assertEqual(data, data2)

        for fmt in ALL_FORMATS:
            for pl in (2 ** 64 + 1, 2 ** 127-1, -2**64, -2 ** 127):
                with self.subTest(pl=pl, fmt=fmt):
                    self.assertRaises(OverflowError, plistlib.dumps,
                                      pl, fmt=fmt)

    def test_bytearray(self):
        for pl in (b'<binary gunk>', b"<lots of binary gunk>\0\1\2\3" * 10):
            for fmt in ALL_FORMATS:
                with self.subTest(pl=pl, fmt=fmt):
                    data = plistlib.dumps(bytearray(pl), fmt=fmt)
                    pl2 = plistlib.loads(data)
                    self.assertIsInstance(pl2, bytes)
                    self.assertEqual(pl2, pl)
                    data2 = plistlib.dumps(pl2, fmt=fmt)
                    self.assertEqual(data, data2)

    def test_bytes(self):
        pl = self._create()
        data = plistlib.dumps(pl)
        pl2 = plistlib.loads(data)
        self.assertEqual(dict(pl), dict(pl2))
        data2 = plistlib.dumps(pl2)
        self.assertEqual(data, data2)

    def test_indentation_array(self):
        data = [[[[[[[[{'test': b'aaaaaa'}]]]]]]]]
        self.assertEqual(plistlib.loads(plistlib.dumps(data)), data)

    def test_indentation_dict(self):
        data = {'1': {'2': {'3': {'4': {'5': {'6': {'7': {'8': {'9': b'aaaaaa'}}}}}}}}}
        self.assertEqual(plistlib.loads(plistlib.dumps(data)), data)

    def test_indentation_dict_mix(self):
        data = {'1': {'2': [{'3': [[[[[{'test': b'aaaaaa'}]]]]]}]}}
        self.assertEqual(plistlib.loads(plistlib.dumps(data)), data)

    def test_appleformatting(self):
        for use_builtin_types in (True, False):
            for fmt in ALL_FORMATS:
                with self.subTest(fmt=fmt, use_builtin_types=use_builtin_types):
                    pl = plistlib.loads(TESTDATA[fmt],
                        use_builtin_types=use_builtin_types)
                    data = plistlib.dumps(pl, fmt=fmt)
                    self.assertEqual(data, TESTDATA[fmt],
                        "generated data was not identical to Apple's output")


    def test_appleformattingfromliteral(self):
        self.maxDiff = None
        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                pl = self._create(fmt=fmt)
                pl2 = plistlib.loads(TESTDATA[fmt], fmt=fmt)
                self.assertEqual(dict(pl), dict(pl2),
                    "generated data was not identical to Apple's output")
                pl2 = plistlib.loads(TESTDATA[fmt])
                self.assertEqual(dict(pl), dict(pl2),
                    "generated data was not identical to Apple's output")

    def test_bytesio(self):
        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                b = BytesIO()
                pl = self._create(fmt=fmt)
                plistlib.dump(pl, b, fmt=fmt)
                pl2 = plistlib.load(BytesIO(b.getvalue()), fmt=fmt)
                self.assertEqual(dict(pl), dict(pl2))
                pl2 = plistlib.load(BytesIO(b.getvalue()))
                self.assertEqual(dict(pl), dict(pl2))

    def test_keysort_bytesio(self):
        pl = collections.OrderedDict()
        pl['b'] = 1
        pl['a'] = 2
        pl['c'] = 3

        for fmt in ALL_FORMATS:
            for sort_keys in (False, True):
                with self.subTest(fmt=fmt, sort_keys=sort_keys):
                    b = BytesIO()

                    plistlib.dump(pl, b, fmt=fmt, sort_keys=sort_keys)
                    pl2 = plistlib.load(BytesIO(b.getvalue()),
                        dict_type=collections.OrderedDict)

                    self.assertEqual(dict(pl), dict(pl2))
                    if sort_keys:
                        self.assertEqual(list(pl2.keys()), ['a', 'b', 'c'])
                    else:
                        self.assertEqual(list(pl2.keys()), ['b', 'a', 'c'])

    def test_keysort(self):
        pl = collections.OrderedDict()
        pl['b'] = 1
        pl['a'] = 2
        pl['c'] = 3

        for fmt in ALL_FORMATS:
            for sort_keys in (False, True):
                with self.subTest(fmt=fmt, sort_keys=sort_keys):
                    data = plistlib.dumps(pl, fmt=fmt, sort_keys=sort_keys)
                    pl2 = plistlib.loads(data, dict_type=collections.OrderedDict)

                    self.assertEqual(dict(pl), dict(pl2))
                    if sort_keys:
                        self.assertEqual(list(pl2.keys()), ['a', 'b', 'c'])
                    else:
                        self.assertEqual(list(pl2.keys()), ['b', 'a', 'c'])

    def test_keys_no_string(self):
        pl = { 42: 'aNumber' }

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                self.assertRaises(TypeError, plistlib.dumps, pl, fmt=fmt)

                b = BytesIO()
                self.assertRaises(TypeError, plistlib.dump, pl, b, fmt=fmt)

    def test_skipkeys(self):
        pl = {
            42: 'aNumber',
            'snake': 'aWord',
        }

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                data = plistlib.dumps(
                    pl, fmt=fmt, skipkeys=True, sort_keys=False)

                pl2 = plistlib.loads(data)
                self.assertEqual(pl2, {'snake': 'aWord'})

                fp = BytesIO()
                plistlib.dump(
                    pl, fp, fmt=fmt, skipkeys=True, sort_keys=False)
                data = fp.getvalue()
                pl2 = plistlib.loads(fp.getvalue())
                self.assertEqual(pl2, {'snake': 'aWord'})

    def test_tuple_members(self):
        pl = {
            'first': (1, 2),
            'second': (1, 2),
            'third': (3, 4),
        }

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                data = plistlib.dumps(pl, fmt=fmt)
                pl2 = plistlib.loads(data)
                self.assertEqual(pl2, {
                    'first': [1, 2],
                    'second': [1, 2],
                    'third': [3, 4],
                })
                if fmt != plistlib.FMT_BINARY:
                    self.assertIsNot(pl2['first'], pl2['second'])

    def test_list_members(self):
        pl = {
            'first': [1, 2],
            'second': [1, 2],
            'third': [3, 4],
        }

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                data = plistlib.dumps(pl, fmt=fmt)
                pl2 = plistlib.loads(data)
                self.assertEqual(pl2, {
                    'first': [1, 2],
                    'second': [1, 2],
                    'third': [3, 4],
                })
                self.assertIsNot(pl2['first'], pl2['second'])

    def test_dict_members(self):
        pl = {
            'first': {'a': 1},
            'second': {'a': 1},
            'third': {'b': 2 },
        }

        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                data = plistlib.dumps(pl, fmt=fmt)
                pl2 = plistlib.loads(data)
                self.assertEqual(pl2, {
                    'first': {'a': 1},
                    'second': {'a': 1},
                    'third': {'b': 2 },
                })
                self.assertIsNot(pl2['first'], pl2['second'])

    def test_controlcharacters(self):
        for i in range(128):
            c = chr(i)
            testString = "string containing %s" % c
            if i >= 32 or c in "\r\n\t":
                # \r, \n and \t are the only legal control chars in XML
                data = plistlib.dumps(testString, fmt=plistlib.FMT_XML)
                if c != "\r":
                    self.assertEqual(plistlib.loads(data), testString)
            else:
                with self.assertRaises(ValueError):
                    plistlib.dumps(testString, fmt=plistlib.FMT_XML)
            plistlib.dumps(testString, fmt=plistlib.FMT_BINARY)

    def test_non_bmp_characters(self):
        pl = {'python': '\U0001f40d'}
        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                data = plistlib.dumps(pl, fmt=fmt)
                self.assertEqual(plistlib.loads(data), pl)

    def test_lone_surrogates(self):
        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                with self.assertRaises(UnicodeEncodeError):
                    plistlib.dumps('\ud8ff', fmt=fmt)
                with self.assertRaises(UnicodeEncodeError):
                    plistlib.dumps('\udcff', fmt=fmt)

    def test_nondictroot(self):
        for fmt in ALL_FORMATS:
            with self.subTest(fmt=fmt):
                test1 = "abc"
                test2 = [1, 2, 3, "abc"]
                result1 = plistlib.loads(plistlib.dumps(test1, fmt=fmt))
                result2 = plistlib.loads(plistlib.dumps(test2, fmt=fmt))
                self.assertEqual(test1, result1)
                self.assertEqual(test2, result2)

    def test_invalidarray(self):
        for i in ["<key>key inside an array</key>",
                  "<key>key inside an array2</key><real>3</real>",
                  "<true/><key>key inside an array3</key>"]:
            self.assertRaises(ValueError, plistlib.loads,
                              ("<plist><array>%s</array></plist>"%i).encode())

    def test_invaliddict(self):
        for i in ["<key><true/>k</key><string>compound key</string>",
                  "<key>single key</key>",
                  "<string>missing key</string>",
                  "<key>k1</key><string>v1</string><real>5.3</real>"
                  "<key>k1</key><key>k2</key><string>double key</string>"]:
            self.assertRaises(ValueError, plistlib.loads,
                              ("<plist><dict>%s</dict></plist>"%i).encode())
            self.assertRaises(ValueError, plistlib.loads,
                              ("<plist><array><dict>%s</dict></array></plist>"%i).encode())

    def test_invalidinteger(self):
        self.assertRaises(ValueError, plistlib.loads,
                          b"<plist><integer>not integer</integer></plist>")

    def test_invalidreal(self):
        self.assertRaises(ValueError, plistlib.loads,
                          b"<plist><integer>not real</integer></plist>")

    def test_xml_encodings(self):
        base = TESTDATA[plistlib.FMT_XML]

        for xml_encoding, encoding, bom in [
                    (b'utf-8', 'utf-8', codecs.BOM_UTF8),
                    (b'utf-16', 'utf-16-le', codecs.BOM_UTF16_LE),
                    (b'utf-16', 'utf-16-be', codecs.BOM_UTF16_BE),
                    # Expat does not support UTF-32
                    #(b'utf-32', 'utf-32-le', codecs.BOM_UTF32_LE),
                    #(b'utf-32', 'utf-32-be', codecs.BOM_UTF32_BE),
                ]:

            pl = self._create(fmt=plistlib.FMT_XML)
            with self.subTest(encoding=encoding):
                data = base.replace(b'UTF-8', xml_encoding)
                data = bom + data.decode('utf-8').encode(encoding)
                pl2 = plistlib.loads(data)
                self.assertEqual(dict(pl), dict(pl2))


class TestBinaryPlistlib(unittest.TestCase):

    def test_nonstandard_refs_size(self):
        # Issue #21538: Refs and offsets are 24-bit integers
        data = (b'bplist00'
                b'\xd1\x00\x00\x01\x00\x00\x02QaQb'
                b'\x00\x00\x08\x00\x00\x0f\x00\x00\x11'
                b'\x00\x00\x00\x00\x00\x00'
                b'\x03\x03'
                b'\x00\x00\x00\x00\x00\x00\x00\x03'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x13')
        self.assertEqual(plistlib.loads(data), {'a': 'b'})

    def test_dump_duplicates(self):
        # Test effectiveness of saving duplicated objects
        for x in (None, False, True, 12345, 123.45, 'abcde', b'abcde',
                  datetime.datetime(2004, 10, 26, 10, 33, 33),
                  plistlib.Data(b'abcde'), bytearray(b'abcde'),
                  [12, 345], (12, 345), {'12': 345}):
            with self.subTest(x=x):
                data = plistlib.dumps([x]*1000, fmt=plistlib.FMT_BINARY)
                self.assertLess(len(data), 1100, repr(data))

    def test_identity(self):
        for x in (None, False, True, 12345, 123.45, 'abcde', b'abcde',
                  datetime.datetime(2004, 10, 26, 10, 33, 33),
                  plistlib.Data(b'abcde'), bytearray(b'abcde'),
                  [12, 345], (12, 345), {'12': 345}):
            with self.subTest(x=x):
                data = plistlib.dumps([x]*2, fmt=plistlib.FMT_BINARY)
                a, b = plistlib.loads(data)
                if isinstance(x, tuple):
                    x = list(x)
                self.assertEqual(a, x)
                self.assertEqual(b, x)
                self.assertIs(a, b)

    def test_cycles(self):
        # recursive list
        a = []
        a.append(a)
        b = plistlib.loads(plistlib.dumps(a, fmt=plistlib.FMT_BINARY))
        self.assertIs(b[0], b)
        # recursive tuple
        a = ([],)
        a[0].append(a)
        b = plistlib.loads(plistlib.dumps(a, fmt=plistlib.FMT_BINARY))
        self.assertIs(b[0][0], b)
        # recursive dict
        a = {}
        a['x'] = a
        b = plistlib.loads(plistlib.dumps(a, fmt=plistlib.FMT_BINARY))
        self.assertIs(b['x'], b)

    def test_large_timestamp(self):
        # Issue #26709: 32-bit timestamp out of range
        for ts in -2**31-1, 2**31:
            with self.subTest(ts=ts):
                d = (datetime.datetime.utcfromtimestamp(0) +
                     datetime.timedelta(seconds=ts))
                data = plistlib.dumps(d, fmt=plistlib.FMT_BINARY)
                self.assertEqual(plistlib.loads(data), d)

    def test_invalid_binary(self):
        for data in [
                # too short data
                b'',
                # too large offset_table_offset and nonstandard offset_size
                b'\x00\x08'
                b'\x00\x00\x00\x00\x00\x00\x03\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x2a',
                # integer overflow in offset_table_offset
                b'\x00\x08'
                b'\x00\x00\x00\x00\x00\x00\x01\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\xff\xff\xff\xff\xff\xff\xff\xff',
                # offset_size = 0
                b'\x00\x08'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x09',
                # ref_size = 0
                b'\xa1\x01\x00\x08\x0a'
                b'\x00\x00\x00\x00\x00\x00\x01\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x02'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x0b',
                # integer overflow in offset
                b'\x00\xff\xff\xff\xff\xff\xff\xff\xff'
                b'\x00\x00\x00\x00\x00\x00\x08\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x09',
                # invalid ASCII
                b'\x51\xff\x08'
                b'\x00\x00\x00\x00\x00\x00\x01\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x0a',
                # invalid UTF-16
                b'\x61\xd8\x00\x08'
                b'\x00\x00\x00\x00\x00\x00\x01\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x01'
                b'\x00\x00\x00\x00\x00\x00\x00\x00'
                b'\x00\x00\x00\x00\x00\x00\x00\x0b',
                ]:
            with self.assertRaises(plistlib.InvalidFileException):
                plistlib.loads(b'bplist00' + data, fmt=plistlib.FMT_BINARY)


class TestPlistlibDeprecated(unittest.TestCase):
    def test_io_deprecated(self):
        pl_in = {
            'key': 42,
            'sub': {
                'key': 9,
                'alt': 'value',
                'data': b'buffer',
            }
        }
        pl_out = {
            'key': 42,
            'sub': {
                'key': 9,
                'alt': 'value',
                'data': plistlib.Data(b'buffer'),
            }
        }

        self.addCleanup(support.unlink, support.TESTFN)
        with self.assertWarns(DeprecationWarning):
            plistlib.writePlist(pl_in, support.TESTFN)

        with self.assertWarns(DeprecationWarning):
            pl2 = plistlib.readPlist(support.TESTFN)

        self.assertEqual(pl_out, pl2)

        os.unlink(support.TESTFN)

        with open(support.TESTFN, 'wb') as fp:
            with self.assertWarns(DeprecationWarning):
                plistlib.writePlist(pl_in, fp)

        with open(support.TESTFN, 'rb') as fp:
            with self.assertWarns(DeprecationWarning):
                pl2 = plistlib.readPlist(fp)

        self.assertEqual(pl_out, pl2)

    def test_bytes_deprecated(self):
        pl = {
            'key': 42,
            'sub': {
                'key': 9,
                'alt': 'value',
                'data': b'buffer',
            }
        }
        with self.assertWarns(DeprecationWarning):
            data = plistlib.writePlistToBytes(pl)

        with self.assertWarns(DeprecationWarning):
            pl2 = plistlib.readPlistFromBytes(data)

        self.assertIsInstance(pl2, dict)
        self.assertEqual(pl2, dict(
            key=42,
            sub=dict(
                key=9,
                alt='value',
                data=plistlib.Data(b'buffer'),
            )
        ))

        with self.assertWarns(DeprecationWarning):
            data2 = plistlib.writePlistToBytes(pl2)
        self.assertEqual(data, data2)

    def test_dataobject_deprecated(self):
        in_data = { 'key': plistlib.Data(b'hello') }
        out_data = { 'key': b'hello' }

        buf = plistlib.dumps(in_data)

        cur = plistlib.loads(buf)
        self.assertEqual(cur, out_data)
        self.assertEqual(cur, in_data)

        cur = plistlib.loads(buf, use_builtin_types=False)
        self.assertEqual(cur, out_data)
        self.assertEqual(cur, in_data)

        with self.assertWarns(DeprecationWarning):
            cur = plistlib.readPlistFromBytes(buf)
        self.assertEqual(cur, out_data)
        self.assertEqual(cur, in_data)


class MiscTestCase(unittest.TestCase):
    def test__all__(self):
        blacklist = {"PlistFormat", "PLISTHEADER"}
        support.check__all__(self, plistlib, blacklist=blacklist)


def test_main():
    support.run_unittest(TestPlistlib, TestPlistlibDeprecated, MiscTestCase)


if __name__ == '__main__':
    test_main()