# test_pack.py -- Tests for the handling of git packs.
# Copyright (C) 2007 James Westby <jw+debian@jameswestby.net>
# Copyright (C) 2008 Jelmer Vernooij <jelmer@jelmer.uk>
#
# SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
# Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU
# General Public License as published by the Free Software Foundation; version 2.0
# or (at your option) any later version. You can redistribute it and/or
# modify it under the terms of either of these two licenses.
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# You should have received a copy of the licenses; if not, see
# <http://www.gnu.org/licenses/> for a copy of the GNU General Public License
# and <http://www.apache.org/licenses/LICENSE-2.0> for a copy of the Apache
# License, Version 2.0.
#

"""Tests for Dulwich packs."""

import os
import shutil
import sys
import tempfile
import zlib
from hashlib import sha1
from io import BytesIO
from typing import NoReturn

from dulwich.errors import ApplyDeltaError, ChecksumMismatch
from dulwich.file import GitFile
from dulwich.object_format import DEFAULT_OBJECT_FORMAT
from dulwich.object_store import MemoryObjectStore
from dulwich.objects import Blob, Commit, Tree, hex_to_sha, sha_to_hex
from dulwich.pack import (
    OFS_DELTA,
    REF_DELTA,
    DeltaChainIterator,
    MemoryPackIndex,
    Pack,
    PackData,
    PackIndex3,
    PackStreamReader,
    UnpackedObject,
    UnresolvedDeltas,
    _create_delta_py,
    _delta_encode_size,
    _encode_copy_operation,
    apply_delta,
    compute_file_sha,
    create_delta,
    deltify_pack_objects,
    load_pack_index,
    read_zlib_chunks,
    unpack_object,
    write_pack,
    write_pack_header,
    write_pack_index_v1,
    write_pack_index_v2,
    write_pack_index_v3,
    write_pack_object,
)
from dulwich.tests.utils import (
    build_pack,
    ext_functest_builder,
    functest_builder,
    make_object,
)

try:
    from dulwich._pack import create_delta as _create_delta_rs
except ImportError:
    _create_delta_rs = None

from . import TestCase

pack1_sha = b"bc63ddad95e7321ee734ea11a7a62d314e0d7481"

a_sha = b"6f670c0fb53f9463760b7295fbb814e965fb20c8"
tree_sha = b"b2a2766a2879c209ab1176e7e778b81ae422eeaa"
commit_sha = b"f18faa16531ac570a3fdc8c7ca16682548dafd12"
indexmode = "0o100644" if sys.platform != "win32" else "0o100666"


class PackTests(TestCase):
    """Base class for testing packs."""

    def setUp(self) -> None:
        super().setUp()
        self.tempdir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, self.tempdir)

    datadir = os.path.abspath(
        os.path.join(os.path.dirname(__file__), "../testdata/packs")
    )

    def get_pack_index(self, sha):
        """Returns a PackIndex from the datadir with the given sha."""
        return load_pack_index(
            os.path.join(self.datadir, "pack-{}.idx".format(sha.decode("ascii"))),
            DEFAULT_OBJECT_FORMAT,
        )

    def get_pack_data(self, sha):
        """Returns a PackData object from the datadir with the given sha."""
        return PackData(
            os.path.join(self.datadir, "pack-{}.pack".format(sha.decode("ascii"))),
            object_format=DEFAULT_OBJECT_FORMAT,
        )

    def get_pack(self, sha):
        return Pack(
            os.path.join(self.datadir, "pack-{}".format(sha.decode("ascii"))),
            object_format=DEFAULT_OBJECT_FORMAT,
        )

    def assertSucceeds(self, func, *args, **kwargs) -> None:
        try:
            func(*args, **kwargs)
        except ChecksumMismatch as e:
            self.fail(e)


class PackIndexTests(PackTests):
    """Class that tests the index of packfiles."""

    def test_object_offset(self) -> None:
        """Tests that the correct object offset is returned from the index."""
        p = self.get_pack_index(pack1_sha)
        self.assertRaises(KeyError, p.object_offset, pack1_sha)
        self.assertEqual(p.object_offset(a_sha), 178)
        self.assertEqual(p.object_offset(tree_sha), 138)
        self.assertEqual(p.object_offset(commit_sha), 12)

    def test_object_sha1(self) -> None:
        """Tests that the correct object offset is returned from the index."""
        p = self.get_pack_index(pack1_sha)
        self.assertRaises(KeyError, p.object_sha1, 876)
        self.assertEqual(p.object_sha1(178), hex_to_sha(a_sha))
        self.assertEqual(p.object_sha1(138), hex_to_sha(tree_sha))
        self.assertEqual(p.object_sha1(12), hex_to_sha(commit_sha))

    def test_iter_prefix(self) -> None:
        p = self.get_pack_index(pack1_sha)
        self.assertEqual([p.object_sha1(178)], list(p.iter_prefix(hex_to_sha(a_sha))))
        self.assertEqual(
            [p.object_sha1(178)], list(p.iter_prefix(hex_to_sha(a_sha)[:5]))
        )
        self.assertEqual(
            [p.object_sha1(178)], list(p.iter_prefix(hex_to_sha(a_sha)[:2]))
        )

    def test_index_len(self) -> None:
        p = self.get_pack_index(pack1_sha)
        self.assertEqual(3, len(p))

    def test_get_stored_checksum(self) -> None:
        p = self.get_pack_index(pack1_sha)
        self.assertEqual(
            b"f2848e2ad16f329ae1c92e3b95e91888daa5bd01",
            sha_to_hex(p.get_stored_checksum()),
        )
        self.assertEqual(
            b"721980e866af9a5f93ad674144e1459b8ba3e7b7",
            sha_to_hex(p.get_pack_checksum()),
        )

    def test_index_check(self) -> None:
        p = self.get_pack_index(pack1_sha)
        self.assertSucceeds(p.check)

    def test_iterentries(self) -> None:
        p = self.get_pack_index(pack1_sha)
        entries = [(sha_to_hex(s), o, c) for s, o, c in p.iterentries()]
        self.assertEqual(
            [
                (b"6f670c0fb53f9463760b7295fbb814e965fb20c8", 178, None),
                (b"b2a2766a2879c209ab1176e7e778b81ae422eeaa", 138, None),
                (b"f18faa16531ac570a3fdc8c7ca16682548dafd12", 12, None),
            ],
            entries,
        )

    def test_iter(self) -> None:
        p = self.get_pack_index(pack1_sha)
        self.assertEqual({tree_sha, commit_sha, a_sha}, set(p))


class TestPackDeltas(TestCase):
    test_string1 = b"The answer was flailing in the wind"
    test_string2 = b"The answer was falling down the pipe"
    test_string3 = b"zzzzz"

    test_string_empty = b""
    test_string_big = b"Z" * 8192
    test_string_huge = b"Z" * 100000

    def _test_roundtrip(self, base, target) -> None:
        self.assertEqual(
            target, b"".join(apply_delta(base, list(create_delta(base, target))))
        )

    def test_nochange(self) -> None:
        self._test_roundtrip(self.test_string1, self.test_string1)

    def test_nochange_huge(self) -> None:
        self._test_roundtrip(self.test_string_huge, self.test_string_huge)

    def test_change(self) -> None:
        self._test_roundtrip(self.test_string1, self.test_string2)

    def test_rewrite(self) -> None:
        self._test_roundtrip(self.test_string1, self.test_string3)

    def test_empty_to_big(self) -> None:
        self._test_roundtrip(self.test_string_empty, self.test_string_big)

    def test_empty_to_huge(self) -> None:
        self._test_roundtrip(self.test_string_empty, self.test_string_huge)

    def test_huge_copy(self) -> None:
        self._test_roundtrip(
            self.test_string_huge + self.test_string1,
            self.test_string_huge + self.test_string2,
        )

    def test_dest_overflow(self) -> None:
        self.assertRaises(
            ApplyDeltaError,
            apply_delta,
            b"a" * 0x10000,
            b"\x80\x80\x04\x80\x80\x04\x80" + b"a" * 0x10000,
        )
        self.assertRaises(
            ApplyDeltaError, apply_delta, b"", b"\x00\x80\x02\xb0\x11\x11"
        )

    def test_apply_delta_invalid_opcode(self) -> None:
        """Test apply_delta with an invalid opcode."""
        # Create a delta with an invalid opcode (0xff is not valid)
        invalid_delta = [b"\xff\x01\x02"]
        base = b"test base"

        # Should raise ApplyDeltaError
        self.assertRaises(ApplyDeltaError, apply_delta, base, invalid_delta)

    def test_create_delta_insert_only(self) -> None:
        """Test create_delta when only insertions are required."""
        base = b""
        target = b"brand new content"
        delta = list(create_delta(base, target))

        # Apply the delta to verify it works correctly
        result = apply_delta(base, delta)
        self.assertEqual(target, b"".join(result))

    def test_create_delta_copy_only(self) -> None:
        """Test create_delta when only copy operations are required."""
        base = b"content to be copied"
        target = b"content to be copied"  # Identical to base
        delta = list(create_delta(base, target))

        # Apply the delta to verify
        result = apply_delta(base, delta)
        self.assertEqual(target, b"".join(result))

    def test_pypy_issue(self) -> None:
        # Test for https://github.com/jelmer/dulwich/issues/509 /
        # https://bitbucket.org/pypy/pypy/issues/2499/cpyext-pystring_asstring-doesnt-work
        chunks = [
            b"tree 03207ccf58880a748188836155ceed72f03d65d6\n"
            b"parent 408fbab530fd4abe49249a636a10f10f44d07a21\n"
            b"author Victor Stinner <victor.stinner@gmail.com> "
            b"1421355207 +0100\n"
            b"committer Victor Stinner <victor.stinner@gmail.com> "
            b"1421355207 +0100\n"
            b"\n"
            b"Backout changeset 3a06020af8cf\n"
            b"\nStreamWriter: close() now clears the reference to the "
            b"transport\n"
            b"\nStreamWriter now raises an exception if it is closed: "
            b"write(), writelines(),\n"
            b"write_eof(), can_write_eof(), get_extra_info(), drain().\n"
        ]
        delta = [
            b"\xcd\x03\xad\x03]tree ff3c181a393d5a7270cddc01ea863818a8621ca8\n"
            b"parent 20a103cc90135494162e819f98d0edfc1f1fba6b\x91]7\x0510738"
            b"\x91\x99@\x0b10738 +0100\x93\x04\x01\xc9"
        ]
        res = apply_delta(chunks, delta)
        expected = [
            b"tree ff3c181a393d5a7270cddc01ea863818a8621ca8\n"
            b"parent 20a103cc90135494162e819f98d0edfc1f1fba6b",
            b"\nauthor Victor Stinner <victor.stinner@gmail.com> 14213",
            b"10738",
            b" +0100\ncommitter Victor Stinner <victor.stinner@gmail.com> 14213",
            b"10738 +0100",
            b"\n\nStreamWriter: close() now clears the reference to the "
            b"transport\n\n"
            b"StreamWriter now raises an exception if it is closed: "
            b"write(), writelines(),\n"
            b"write_eof(), can_write_eof(), get_extra_info(), drain().\n",
        ]
        self.assertEqual(b"".join(expected), b"".join(res))

    def _do_test_create_delta_various_cases(self, create_delta_func):
        """Test create_delta with various input cases for both Python and Rust versions."""
        import types

        # Helper to normalize delta output (Rust returns bytes, Python returns Iterator[bytes])
        def get_delta(base, target):
            result = create_delta_func(base, target)
            # Check if it's a Rust extension (returns bytes directly)
            if isinstance(create_delta_func, types.BuiltinFunctionType):
                return result
            # Python version returns iterator
            return b"".join(result)

        # Test case 1: Identical content
        base = b"hello world"
        target = b"hello world"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 2: Complete rewrite
        base = b"aaaaaaaaaa"
        target = b"bbbbbbbbbb"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 3: Partial replacement
        base = b"The quick brown fox jumps over the lazy dog"
        target = b"The quick brown cat jumps over the lazy dog"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 4: Insertion at end
        base = b"hello"
        target = b"hello world"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 5: Deletion from end
        base = b"hello world"
        target = b"hello"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 6: Empty base
        base = b""
        target = b"new content"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 7: Empty target
        base = b"old content"
        target = b""
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 8: Large content
        base = b"x" * 10000
        target = b"x" * 9000 + b"y" * 1000
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

        # Test case 9: Multiple changes
        base = b"line1\nline2\nline3\nline4\n"
        target = b"line1\nmodified2\nline3\nmodified4\n"
        delta = get_delta(base, target)
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

    # Test both Python and Rust versions
    test_create_delta_py = functest_builder(
        _do_test_create_delta_various_cases, _create_delta_py
    )
    test_create_delta_extension = ext_functest_builder(
        _do_test_create_delta_various_cases, _create_delta_rs
    )

    def _do_test_create_delta_output_consistency(self, create_delta_func):
        """Test that create_delta produces consistent and valid output."""
        import types

        # Helper to normalize delta output
        def get_delta(base, target):
            result = create_delta_func(base, target)
            if isinstance(create_delta_func, types.BuiltinFunctionType):
                return result
            return b"".join(result)

        test_cases = [
            (b"", b""),
            (b"a", b"a"),
            (b"abc", b"abc"),
            (b"abc", b"def"),
            (b"hello world", b"hello rust"),
            (b"x" * 100, b"y" * 100),
            (b"same prefix but different suffix", b"same prefix with new suffix"),
        ]

        for base, target in test_cases:
            delta = get_delta(base, target)

            # Verify delta can be applied
            result = b"".join(apply_delta(base, delta))
            self.assertEqual(
                target,
                result,
                f"Delta failed for base={base[:20]}... target={target[:20]}...",
            )

            # Verify delta is not empty (should have at least header)
            self.assertGreater(len(delta), 0)

    test_create_delta_output_consistency_py = functest_builder(
        _do_test_create_delta_output_consistency, _create_delta_py
    )
    test_create_delta_output_consistency_extension = ext_functest_builder(
        _do_test_create_delta_output_consistency, _create_delta_rs
    )

    def _do_test_create_delta_produces_valid_deltas(self, create_delta_func):
        """Test that deltas produced are valid Git delta format."""
        import types

        # Helper to normalize delta output
        def get_delta(base, target):
            result = create_delta_func(base, target)
            if isinstance(create_delta_func, types.BuiltinFunctionType):
                return result
            return b"".join(result)

        base = b"The quick brown fox"
        target = b"The slow brown fox"

        delta = get_delta(base, target)

        # A valid delta should have:
        # 1. Base size header
        # 2. Target size header
        # 3. Delta operations
        self.assertGreater(len(delta), 2)  # At minimum 2 header bytes

        # Apply delta to verify it's valid
        result = b"".join(apply_delta(base, delta))
        self.assertEqual(target, result)

    test_create_delta_valid_format_py = functest_builder(
        _do_test_create_delta_produces_valid_deltas, _create_delta_py
    )
    test_create_delta_valid_format_extension = ext_functest_builder(
        _do_test_create_delta_produces_valid_deltas, _create_delta_rs
    )


class TestPackData(PackTests):
    """Tests getting the data from the packfile."""

    def test_create_pack(self) -> None:
        self.get_pack_data(pack1_sha).close()

    def test_from_file(self) -> None:
        path = os.path.join(
            self.datadir, "pack-{}.pack".format(pack1_sha.decode("ascii"))
        )
        with open(path, "rb") as f:
            pack_data = PackData.from_file(
                f, DEFAULT_OBJECT_FORMAT, os.path.getsize(path)
            )
            pack_data.close()

    def test_pack_len(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            self.assertEqual(3, len(p))

    def test_index_check(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            self.assertSucceeds(p.check)

    def test_get_stored_checksum(self) -> None:
        """Test getting the stored checksum of the pack data."""
        with self.get_pack_data(pack1_sha) as p:
            checksum = p.get_stored_checksum()
            self.assertEqual(20, len(checksum))
            # Verify it's a valid SHA1 hash (20 bytes)
            self.assertIsInstance(checksum, bytes)

    # Removed test_check_pack_data_size as it was accessing private attributes

    def test_close_twice(self) -> None:
        """Test that calling close multiple times is safe."""
        p = self.get_pack_data(pack1_sha)
        p.close()
        # Second close should not raise an exception
        p.close()

    def test_iter_unpacked(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            commit_data = (
                b"tree b2a2766a2879c209ab1176e7e778b81ae422eeaa\n"
                b"author James Westby <jw+debian@jameswestby.net> "
                b"1174945067 +0100\n"
                b"committer James Westby <jw+debian@jameswestby.net> "
                b"1174945067 +0100\n"
                b"\n"
                b"Test commit\n"
            )
            blob_sha = b"6f670c0fb53f9463760b7295fbb814e965fb20c8"
            tree_data = b"100644 a\0" + hex_to_sha(blob_sha)
            actual = list(p.iter_unpacked())
            self.assertEqual(
                [
                    UnpackedObject(
                        offset=12,
                        pack_type_num=1,
                        decomp_chunks=[commit_data],
                        crc32=None,
                    ),
                    UnpackedObject(
                        offset=138,
                        pack_type_num=2,
                        decomp_chunks=[tree_data],
                        crc32=None,
                    ),
                    UnpackedObject(
                        offset=178,
                        pack_type_num=3,
                        decomp_chunks=[b"test 1\n"],
                        crc32=None,
                    ),
                ],
                actual,
            )

    def test_iterentries(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            entries = {(sha_to_hex(s), o, c) for s, o, c in p.iterentries()}
            self.assertEqual(
                {
                    (
                        b"6f670c0fb53f9463760b7295fbb814e965fb20c8",
                        178,
                        1373561701,
                    ),
                    (
                        b"b2a2766a2879c209ab1176e7e778b81ae422eeaa",
                        138,
                        912998690,
                    ),
                    (
                        b"f18faa16531ac570a3fdc8c7ca16682548dafd12",
                        12,
                        3775879613,
                    ),
                },
                entries,
            )

    def test_create_index_v1(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            filename = os.path.join(self.tempdir, "v1test.idx")
            p.create_index_v1(filename)
            idx1 = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
            idx2 = self.get_pack_index(pack1_sha)
            self.assertEqual(oct(os.stat(filename).st_mode), indexmode)
            self.assertEqual(idx1, idx2)

    def test_create_index_v2(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            filename = os.path.join(self.tempdir, "v2test.idx")
            p.create_index_v2(filename)
            idx1 = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
            idx2 = self.get_pack_index(pack1_sha)
            self.assertEqual(oct(os.stat(filename).st_mode), indexmode)
            self.assertEqual(idx1, idx2)

    def test_create_index_v3(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            filename = os.path.join(self.tempdir, "v3test.idx")
            p.create_index_v3(filename)
            idx1 = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
            idx2 = self.get_pack_index(pack1_sha)
            self.assertEqual(oct(os.stat(filename).st_mode), indexmode)
            self.assertEqual(idx1, idx2)
            self.assertIsInstance(idx1, PackIndex3)
            self.assertEqual(idx1.version, 3)

    def test_create_index_version3(self) -> None:
        with self.get_pack_data(pack1_sha) as p:
            filename = os.path.join(self.tempdir, "version3test.idx")
            p.create_index(filename, version=3)
            idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
            self.assertIsInstance(idx, PackIndex3)
            self.assertEqual(idx.version, 3)

    def test_compute_file_sha(self) -> None:
        f = BytesIO(b"abcd1234wxyz")
        try:
            self.assertEqual(
                sha1(b"abcd1234wxyz").hexdigest(),
                compute_file_sha(f, DEFAULT_OBJECT_FORMAT.hash_func).hexdigest(),
            )
            self.assertEqual(
                sha1(b"abcd1234wxyz").hexdigest(),
                compute_file_sha(
                    f, DEFAULT_OBJECT_FORMAT.hash_func, buffer_size=5
                ).hexdigest(),
            )
            self.assertEqual(
                sha1(b"abcd1234").hexdigest(),
                compute_file_sha(
                    f, DEFAULT_OBJECT_FORMAT.hash_func, end_ofs=-4
                ).hexdigest(),
            )
            self.assertEqual(
                sha1(b"1234wxyz").hexdigest(),
                compute_file_sha(
                    f, DEFAULT_OBJECT_FORMAT.hash_func, start_ofs=4
                ).hexdigest(),
            )
            self.assertEqual(
                sha1(b"1234").hexdigest(),
                compute_file_sha(
                    f, DEFAULT_OBJECT_FORMAT.hash_func, start_ofs=4, end_ofs=-4
                ).hexdigest(),
            )
        finally:
            f.close()

    def test_compute_file_sha_short_file(self) -> None:
        f = BytesIO(b"abcd1234wxyz")
        try:
            self.assertRaises(
                AssertionError,
                compute_file_sha,
                f,
                DEFAULT_OBJECT_FORMAT.hash_func,
                -20,
            )
            self.assertRaises(
                AssertionError,
                compute_file_sha,
                f,
                DEFAULT_OBJECT_FORMAT.hash_func,
                0,
                20,
            )
            self.assertRaises(
                AssertionError,
                compute_file_sha,
                f,
                DEFAULT_OBJECT_FORMAT.hash_func,
                10,
                -12,
            )
        finally:
            f.close()


class TestPack(PackTests):
    def test_len(self) -> None:
        with self.get_pack(pack1_sha) as p:
            self.assertEqual(3, len(p))

    def test_contains(self) -> None:
        with self.get_pack(pack1_sha) as p:
            self.assertIn(tree_sha, p)

    def test_get(self) -> None:
        with self.get_pack(pack1_sha) as p:
            self.assertEqual(type(p[tree_sha]), Tree)

    def test_iter(self) -> None:
        with self.get_pack(pack1_sha) as p:
            self.assertEqual({tree_sha, commit_sha, a_sha}, set(p))

    def test_iterobjects(self) -> None:
        with self.get_pack(pack1_sha) as p:
            expected = {p[s] for s in [commit_sha, tree_sha, a_sha]}
            self.assertEqual(expected, set(list(p.iterobjects())))

    def test_pack_tuples(self) -> None:
        with self.get_pack(pack1_sha) as p:
            tuples = p.pack_tuples()
            expected = {(p[s], None) for s in [commit_sha, tree_sha, a_sha]}
            self.assertEqual(expected, set(list(tuples)))
            self.assertEqual(expected, set(list(tuples)))
            self.assertEqual(3, len(tuples))

    # Removed test_pack_tuples_with_progress as it was using parameters not supported by the API

    def test_get_object_at(self) -> None:
        """Tests random access for non-delta objects."""
        with self.get_pack(pack1_sha) as p:
            obj = p[a_sha]
            self.assertEqual(obj.type_name, b"blob")
            self.assertEqual(obj.sha().hexdigest().encode("ascii"), a_sha)
            obj = p[tree_sha]
            self.assertEqual(obj.type_name, b"tree")
            self.assertEqual(obj.sha().hexdigest().encode("ascii"), tree_sha)
            obj = p[commit_sha]
            self.assertEqual(obj.type_name, b"commit")
            self.assertEqual(obj.sha().hexdigest().encode("ascii"), commit_sha)

    def test_copy(self) -> None:
        with self.get_pack(pack1_sha) as origpack:
            self.assertSucceeds(origpack.index.check)
            basename = os.path.join(self.tempdir, "Elch")
            write_pack(
                basename, origpack.pack_tuples(), object_format=DEFAULT_OBJECT_FORMAT
            )

            with Pack(basename, object_format=DEFAULT_OBJECT_FORMAT) as newpack:
                self.assertEqual(origpack, newpack)
                self.assertSucceeds(newpack.index.check)
                self.assertEqual(origpack.name(), newpack.name())
                # Note: We don't compare pack data checksums here because Git does
                # not require deterministic object ordering in pack files. The same
                # set of objects can be written in different orders (e.g., due to
                # dict iteration order differences across Python versions/platforms),
                # producing different but equally valid pack files with different
                # checksums. The assertEqual above already verifies both packs
                # contain the same objects by comparing their indices.

                wrong_version = origpack.index.version != newpack.index.version
                orig_checksum = origpack.index.get_stored_checksum()
                new_checksum = newpack.index.get_stored_checksum()
                self.assertTrue(wrong_version or orig_checksum == new_checksum)

    def test_commit_obj(self) -> None:
        with self.get_pack(pack1_sha) as p:
            commit = p[commit_sha]
            self.assertEqual(b"James Westby <jw+debian@jameswestby.net>", commit.author)
            self.assertEqual([], commit.parents)

    def _copy_pack(self, origpack):
        basename = os.path.join(self.tempdir, "somepack")
        write_pack(
            basename, origpack.pack_tuples(), object_format=DEFAULT_OBJECT_FORMAT
        )
        return Pack(basename, object_format=DEFAULT_OBJECT_FORMAT)

    def test_keep_no_message(self) -> None:
        with self.get_pack(pack1_sha) as p:
            p = self._copy_pack(p)

        with p:
            keepfile_name = p.keep()

        # file should exist
        self.assertTrue(os.path.exists(keepfile_name))

        with open(keepfile_name) as f:
            buf = f.read()
            self.assertEqual("", buf)

    def test_keep_message(self) -> None:
        with self.get_pack(pack1_sha) as p:
            p = self._copy_pack(p)

        msg = b"some message"
        with p:
            keepfile_name = p.keep(msg)

        # file should exist
        self.assertTrue(os.path.exists(keepfile_name))

        # and contain the right message, with a linefeed
        with open(keepfile_name, "rb") as f:
            buf = f.read()
            self.assertEqual(msg + b"\n", buf)

    def test_name(self) -> None:
        with self.get_pack(pack1_sha) as p:
            self.assertEqual(pack1_sha, p.name())

    def test_length_mismatch(self) -> None:
        with self.get_pack_data(pack1_sha) as data:
            index = self.get_pack_index(pack1_sha)
            pack = Pack.from_objects(data, index)
            self.addCleanup(pack.close)
            pack.check_length_and_checksum()

            data._file.seek(12)
            bad_file = BytesIO()
            write_pack_header(bad_file.write, 9999)
            bad_file.write(data._file.read())
            bad_file = BytesIO(bad_file.getvalue())
            bad_data = PackData("", file=bad_file, object_format=DEFAULT_OBJECT_FORMAT)
            self.addCleanup(bad_data.close)
            bad_pack = Pack.from_lazy_objects(lambda: bad_data, lambda: index)
            self.addCleanup(bad_pack.close)
            self.assertRaises(AssertionError, lambda: bad_pack.data)
            self.assertRaises(AssertionError, bad_pack.check_length_and_checksum)

    def test_checksum_mismatch(self) -> None:
        with self.get_pack_data(pack1_sha) as data:
            index = self.get_pack_index(pack1_sha)
            pack = Pack.from_objects(data, index)
            self.addCleanup(pack.close)
            pack.check_length_and_checksum()

            data._file.seek(0)
            bad_file = BytesIO(data._file.read()[:-20] + (b"\xff" * 20))
            bad_data = PackData("", file=bad_file, object_format=DEFAULT_OBJECT_FORMAT)
            self.addCleanup(bad_data.close)
            bad_pack = Pack.from_lazy_objects(lambda: bad_data, lambda: index)
            self.addCleanup(bad_pack.close)
            self.assertRaises(ChecksumMismatch, lambda: bad_pack.data)
            self.assertRaises(ChecksumMismatch, bad_pack.check_length_and_checksum)

    def test_iterobjects_2(self) -> None:
        with self.get_pack(pack1_sha) as p:
            objs = {o.id: o for o in p.iterobjects()}
            self.assertEqual(3, len(objs))
            self.assertEqual(sorted(objs), sorted(p.index))
            self.assertIsInstance(objs[a_sha], Blob)
            self.assertIsInstance(objs[tree_sha], Tree)
            self.assertIsInstance(objs[commit_sha], Commit)

    def test_iterobjects_subset(self) -> None:
        with self.get_pack(pack1_sha) as p:
            objs = {o.id: o for o in p.iterobjects_subset([commit_sha])}
            self.assertEqual(1, len(objs))
            self.assertIsInstance(objs[commit_sha], Commit)

    def test_iterobjects_subset_empty(self) -> None:
        """Test iterobjects_subset with an empty subset."""
        with self.get_pack(pack1_sha) as p:
            objs = list(p.iterobjects_subset([]))
            self.assertEqual(0, len(objs))

    def test_iterobjects_subset_nonexistent(self) -> None:
        """Test iterobjects_subset with non-existent object IDs."""
        with self.get_pack(pack1_sha) as p:
            # Create a fake SHA that doesn't exist in the pack
            fake_sha = b"1" * 40

            # KeyError is expected when trying to access a non-existent object
            # We'll use a try-except block to test the behavior
            try:
                list(p.iterobjects_subset([fake_sha]))
                self.fail("Expected KeyError when accessing non-existent object")
            except KeyError:
                pass  # This is the expected behavior

    def test_check_length_and_checksum(self) -> None:
        """Test that check_length_and_checksum works correctly."""
        with self.get_pack(pack1_sha) as p:
            # This should not raise an exception
            p.check_length_and_checksum()


class TestThinPack(PackTests):
    def setUp(self) -> None:
        super().setUp()
        self.store = MemoryObjectStore()
        self.blobs = {}
        for blob in (b"foo", b"bar", b"foo1234", b"bar2468"):
            self.blobs[blob] = make_object(Blob, data=blob)
        self.store.add_object(self.blobs[b"foo"])
        self.store.add_object(self.blobs[b"bar"])

        # Build a thin pack. 'foo' is as an external reference, 'bar' an
        # internal reference.
        self.pack_dir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, self.pack_dir)
        self.pack_prefix = os.path.join(self.pack_dir, "pack")

        with open(self.pack_prefix + ".pack", "wb") as f:
            build_pack(
                f,
                [
                    (REF_DELTA, (self.blobs[b"foo"].id, b"foo1234")),
                    (Blob.type_num, b"bar"),
                    (REF_DELTA, (self.blobs[b"bar"].id, b"bar2468")),
                ],
                store=self.store,
            )

        # Index the new pack.
        with self.make_pack(True) as pack:
            with PackData(pack._data_path, object_format=DEFAULT_OBJECT_FORMAT) as data:
                data.create_index(
                    self.pack_prefix + ".idx", resolve_ext_ref=pack.resolve_ext_ref
                )

        del self.store[self.blobs[b"bar"].id]

    def make_pack(self, resolve_ext_ref):
        return Pack(
            self.pack_prefix,
            object_format=DEFAULT_OBJECT_FORMAT,
            resolve_ext_ref=self.store.get_raw if resolve_ext_ref else None,
        )

    def test_get_raw(self) -> None:
        with self.make_pack(False) as p:
            self.assertRaises(KeyError, p.get_raw, self.blobs[b"foo1234"].id)
        with self.make_pack(True) as p:
            self.assertEqual((3, b"foo1234"), p.get_raw(self.blobs[b"foo1234"].id))

    def test_get_unpacked_object(self) -> None:
        self.maxDiff = None
        with self.make_pack(False) as p:
            expected = UnpackedObject(
                7,
                delta_base=b"\x19\x10(\x15f=#\xf8\xb7ZG\xe7\xa0\x19e\xdc\xdc\x96F\x8c",
                decomp_chunks=[b"\x03\x07\x90\x03\x041234"],
            )
            expected.offset = 12
            got = p.get_unpacked_object(self.blobs[b"foo1234"].id)
            self.assertEqual(expected, got)
        with self.make_pack(True) as p:
            expected = UnpackedObject(
                7,
                delta_base=b"\x19\x10(\x15f=#\xf8\xb7ZG\xe7\xa0\x19e\xdc\xdc\x96F\x8c",
                decomp_chunks=[b"\x03\x07\x90\x03\x041234"],
            )
            expected.offset = 12
            got = p.get_unpacked_object(self.blobs[b"foo1234"].id)
            self.assertEqual(
                expected,
                got,
            )

    def test_iterobjects(self) -> None:
        with self.make_pack(False) as p:
            self.assertRaises(UnresolvedDeltas, list, p.iterobjects())
        with self.make_pack(True) as p:
            self.assertEqual(
                sorted(
                    [
                        self.blobs[b"foo1234"].id,
                        self.blobs[b"bar"].id,
                        self.blobs[b"bar2468"].id,
                    ]
                ),
                sorted(o.id for o in p.iterobjects()),
            )


class WritePackTests(TestCase):
    def test_write_pack_header(self) -> None:
        f = BytesIO()
        try:
            write_pack_header(f.write, 42)
            self.assertEqual(b"PACK\x00\x00\x00\x02\x00\x00\x00*", f.getvalue())
        finally:
            f.close()

    def test_write_pack_object(self) -> None:
        f = BytesIO()
        try:
            f.write(b"header")
            offset = f.tell()
            crc32 = write_pack_object(
                f.write, Blob.type_num, b"blob", object_format=DEFAULT_OBJECT_FORMAT
            )
            self.assertEqual(crc32, zlib.crc32(f.getvalue()[6:]) & 0xFFFFFFFF)

            f.write(b"x")  # unpack_object needs extra trailing data.
            f.seek(offset)
            unpacked, unused = unpack_object(
                f.read, DEFAULT_OBJECT_FORMAT.hash_func, compute_crc32=True
            )
            self.assertEqual(Blob.type_num, unpacked.pack_type_num)
            self.assertEqual(Blob.type_num, unpacked.obj_type_num)
            self.assertEqual([b"blob"], unpacked.decomp_chunks)
            self.assertEqual(crc32, unpacked.crc32)
            self.assertEqual(b"x", unused)
        finally:
            f.close()

    def test_write_pack_object_sha(self) -> None:
        f = BytesIO()
        f.write(b"header")
        offset = f.tell()
        sha_a = sha1(b"foo")
        sha_b = sha_a.copy()
        write_pack_object(
            f.write,
            Blob.type_num,
            b"blob",
            sha=sha_a,
            object_format=DEFAULT_OBJECT_FORMAT,
        )
        self.assertNotEqual(sha_a.digest(), sha_b.digest())
        sha_b.update(f.getvalue()[offset:])
        self.assertEqual(sha_a.digest(), sha_b.digest())

    def test_write_pack_object_compression_level(self) -> None:
        f = BytesIO()
        f.write(b"header")
        offset = f.tell()
        sha_a = sha1(b"foo")
        sha_b = sha_a.copy()
        write_pack_object(
            f.write,
            Blob.type_num,
            b"blob",
            sha=sha_a,
            compression_level=6,
            object_format=DEFAULT_OBJECT_FORMAT,
        )
        self.assertNotEqual(sha_a.digest(), sha_b.digest())
        sha_b.update(f.getvalue()[offset:])
        self.assertEqual(sha_a.digest(), sha_b.digest())


pack_checksum = hex_to_sha("721980e866af9a5f93ad674144e1459b8ba3e7b7")


class BaseTestPackIndexWriting:
    def assertSucceeds(self, func, *args, **kwargs) -> None:
        try:
            func(*args, **kwargs)
        except ChecksumMismatch as e:
            self.fail(e)

    def index(self, filename, entries, pack_checksum) -> NoReturn:
        raise NotImplementedError(self.index)

    def test_empty(self) -> None:
        idx = self.index("empty.idx", [], pack_checksum)
        self.assertEqual(idx.get_pack_checksum(), pack_checksum)
        self.assertEqual(0, len(idx))

    def test_large(self) -> None:
        entry1_sha = hex_to_sha("4e6388232ec39792661e2e75db8fb117fc869ce6")
        entry2_sha = hex_to_sha("e98f071751bd77f59967bfa671cd2caebdccc9a2")
        entries = [
            (entry1_sha, 0xF2972D0830529B87, 24),
            (entry2_sha, (~0xF2972D0830529B87) & (2**64 - 1), 92),
        ]
        if not self._supports_large:
            self.assertRaises(
                TypeError, self.index, "single.idx", entries, pack_checksum
            )
            return
        idx = self.index("single.idx", entries, pack_checksum)
        self.assertEqual(idx.get_pack_checksum(), pack_checksum)
        self.assertEqual(2, len(idx))
        actual_entries = list(idx.iterentries())
        self.assertEqual(len(entries), len(actual_entries))
        for mine, actual in zip(entries, actual_entries):
            my_sha, my_offset, my_crc = mine
            actual_sha, actual_offset, actual_crc = actual
            self.assertEqual(my_sha, actual_sha)
            self.assertEqual(my_offset, actual_offset)
            if self._has_crc32_checksum:
                self.assertEqual(my_crc, actual_crc)
            else:
                self.assertIsNone(actual_crc)

    def test_single(self) -> None:
        entry_sha = hex_to_sha("6f670c0fb53f9463760b7295fbb814e965fb20c8")
        my_entries = [(entry_sha, 178, 42)]
        idx = self.index("single.idx", my_entries, pack_checksum)
        self.assertEqual(idx.get_pack_checksum(), pack_checksum)
        self.assertEqual(1, len(idx))
        actual_entries = list(idx.iterentries())
        self.assertEqual(len(my_entries), len(actual_entries))
        for mine, actual in zip(my_entries, actual_entries):
            my_sha, my_offset, my_crc = mine
            actual_sha, actual_offset, actual_crc = actual
            self.assertEqual(my_sha, actual_sha)
            self.assertEqual(my_offset, actual_offset)
            if self._has_crc32_checksum:
                self.assertEqual(my_crc, actual_crc)
            else:
                self.assertIsNone(actual_crc)


class BaseTestFilePackIndexWriting(BaseTestPackIndexWriting):
    def setUp(self) -> None:
        self.tempdir = tempfile.mkdtemp()

    def tearDown(self) -> None:
        shutil.rmtree(self.tempdir)

    def index(self, filename, entries, pack_checksum):
        path = os.path.join(self.tempdir, filename)
        self.writeIndex(path, entries, pack_checksum)
        idx = load_pack_index(path, DEFAULT_OBJECT_FORMAT)
        self.assertSucceeds(idx.check)
        self.assertEqual(idx.version, self._expected_version)
        return idx

    def writeIndex(self, filename, entries, pack_checksum) -> None:
        # FIXME: Write to BytesIO instead rather than hitting disk ?
        with GitFile(filename, "wb") as f:
            self._write_fn(f, entries, pack_checksum)


class TestMemoryIndexWriting(TestCase, BaseTestPackIndexWriting):
    def setUp(self) -> None:
        TestCase.setUp(self)
        self._has_crc32_checksum = True
        self._supports_large = True

    def index(self, filename, entries, pack_checksum):
        from dulwich.object_format import DEFAULT_OBJECT_FORMAT

        return MemoryPackIndex(entries, DEFAULT_OBJECT_FORMAT, pack_checksum)

    def tearDown(self) -> None:
        TestCase.tearDown(self)


class TestPackIndexWritingv1(TestCase, BaseTestFilePackIndexWriting):
    def setUp(self) -> None:
        TestCase.setUp(self)
        BaseTestFilePackIndexWriting.setUp(self)
        self._has_crc32_checksum = False
        self._expected_version = 1
        self._supports_large = False
        self._write_fn = write_pack_index_v1

    def tearDown(self) -> None:
        TestCase.tearDown(self)
        BaseTestFilePackIndexWriting.tearDown(self)


class TestPackIndexWritingv2(TestCase, BaseTestFilePackIndexWriting):
    def setUp(self) -> None:
        TestCase.setUp(self)
        BaseTestFilePackIndexWriting.setUp(self)
        self._has_crc32_checksum = True
        self._supports_large = True
        self._expected_version = 2
        self._write_fn = write_pack_index_v2

    def tearDown(self) -> None:
        TestCase.tearDown(self)
        BaseTestFilePackIndexWriting.tearDown(self)


class TestPackIndexWritingv3(TestCase, BaseTestFilePackIndexWriting):
    def setUp(self) -> None:
        TestCase.setUp(self)
        BaseTestFilePackIndexWriting.setUp(self)
        self._has_crc32_checksum = True
        self._supports_large = True
        self._expected_version = 3
        self._write_fn = write_pack_index_v3

    def tearDown(self) -> None:
        TestCase.tearDown(self)
        BaseTestFilePackIndexWriting.tearDown(self)

    def test_load_v3_index_returns_packindex3(self) -> None:
        """Test that loading a v3 index file returns a PackIndex3 instance."""
        entries = [(b"abcd" * 5, 0, zlib.crc32(b""))]
        filename = os.path.join(self.tempdir, "test.idx")
        self.writeIndex(filename, entries, b"1234567890" * 2)
        idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
        self.assertIsInstance(idx, PackIndex3)
        self.assertEqual(idx.version, 3)
        self.assertEqual(idx.hash_format, 1)  # SHA-1
        self.assertEqual(idx.hash_size, 20)
        self.assertEqual(idx.shortened_oid_len, 20)

    def test_v3_hash_algorithm(self) -> None:
        """Test v3 index correctly handles hash algorithm field."""
        entries = [(b"a" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(self.tempdir, "test_hash.idx")
        # Write v3 index with SHA-1 (algorithm=1)
        with GitFile(filename, "wb") as f:
            write_pack_index_v3(f, entries, b"1" * 20, hash_format=1)
        idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
        self.assertEqual(idx.hash_format, 1)
        self.assertEqual(idx.hash_size, 20)

    def test_v3_sha256_length(self) -> None:
        """Test v3 index with SHA-256 hash length."""
        # For now, test that SHA-256 is not yet implemented
        entries = [(b"a" * 32, 42, zlib.crc32(b"data"))]
        filename = os.path.join(self.tempdir, "test_sha256.idx")
        # SHA-256 should raise NotImplementedError
        with self.assertRaises(NotImplementedError) as cm:
            with GitFile(filename, "wb") as f:
                write_pack_index_v3(f, entries, b"1" * 32, hash_format=2)
        self.assertIn("SHA-256", str(cm.exception))

    def test_v3_invalid_hash_algorithm(self) -> None:
        """Test v3 index with invalid hash algorithm."""
        entries = [(b"a" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(self.tempdir, "test_invalid.idx")
        # Invalid hash algorithm should raise ValueError
        with self.assertRaises(ValueError) as cm:
            with GitFile(filename, "wb") as f:
                write_pack_index_v3(f, entries, b"1" * 20, hash_format=99)
        self.assertIn("Unknown hash algorithm", str(cm.exception))

    def test_v3_wrong_hash_length(self) -> None:
        """Test v3 index with mismatched hash length."""
        # Entry with wrong hash length for SHA-1
        entries = [(b"a" * 15, 42, zlib.crc32(b"data"))]  # Too short
        filename = os.path.join(self.tempdir, "test_wrong_len.idx")
        with self.assertRaises(ValueError) as cm:
            with GitFile(filename, "wb") as f:
                write_pack_index_v3(f, entries, b"1" * 20, hash_format=1)
        self.assertIn("wrong length", str(cm.exception))


class WritePackIndexTests(TestCase):
    """Tests for the configurable write_pack_index function."""

    def test_default_pack_index_version_constant(self) -> None:
        from dulwich.pack import DEFAULT_PACK_INDEX_VERSION

        # Ensure the constant is set to version 2 (current Git default)
        self.assertEqual(2, DEFAULT_PACK_INDEX_VERSION)

    def test_write_pack_index_defaults_to_v2(self) -> None:
        import tempfile

        from dulwich.pack import (
            DEFAULT_PACK_INDEX_VERSION,
            load_pack_index,
            write_pack_index,
        )

        tempdir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, tempdir)

        entries = [(b"1" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(tempdir, "test_default.idx")

        with GitFile(filename, "wb") as f:
            write_pack_index(f, entries, b"P" * 20)

        idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
        self.assertEqual(DEFAULT_PACK_INDEX_VERSION, idx.version)

    def test_write_pack_index_version_1(self) -> None:
        import tempfile

        from dulwich.pack import load_pack_index, write_pack_index

        tempdir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, tempdir)

        entries = [(b"1" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(tempdir, "test_v1.idx")

        with GitFile(filename, "wb") as f:
            write_pack_index(f, entries, b"P" * 20, version=1)

        idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
        self.assertEqual(1, idx.version)

    def test_write_pack_index_version_3(self) -> None:
        import tempfile

        from dulwich.pack import load_pack_index, write_pack_index

        tempdir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, tempdir)

        entries = [(b"1" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(tempdir, "test_v3.idx")

        with GitFile(filename, "wb") as f:
            write_pack_index(f, entries, b"P" * 20, version=3)

        idx = load_pack_index(filename, DEFAULT_OBJECT_FORMAT)
        self.assertEqual(3, idx.version)

    def test_write_pack_index_invalid_version(self) -> None:
        import tempfile

        from dulwich.pack import write_pack_index

        tempdir = tempfile.mkdtemp()
        self.addCleanup(shutil.rmtree, tempdir)

        entries = [(b"1" * 20, 42, zlib.crc32(b"data"))]
        filename = os.path.join(tempdir, "test_invalid.idx")

        with self.assertRaises(ValueError) as cm:
            with GitFile(filename, "wb") as f:
                write_pack_index(f, entries, b"P" * 20, version=99)
        self.assertIn("Unsupported pack index version: 99", str(cm.exception))


class MockFileWithoutFileno:
    """Mock file-like object without fileno method."""

    def __init__(self, content):
        self.content = content
        self.position = 0

    def read(self, size=None):
        if size is None:
            result = self.content[self.position :]
            self.position = len(self.content)
        else:
            result = self.content[self.position : self.position + size]
            self.position += size
        return result

    def seek(self, position):
        self.position = position

    def tell(self):
        return self.position


# Removed the PackWithoutMmapTests class since it was using private methods


class ReadZlibTests(TestCase):
    decomp = (
        b"tree 4ada885c9196b6b6fa08744b5862bf92896fc002\n"
        b"parent None\n"
        b"author Jelmer Vernooij <jelmer@samba.org> 1228980214 +0000\n"
        b"committer Jelmer Vernooij <jelmer@samba.org> 1228980214 +0000\n"
        b"\n"
        b"Provide replacement for mmap()'s offset argument."
    )
    comp = zlib.compress(decomp)
    extra = b"nextobject"

    def setUp(self) -> None:
        super().setUp()
        self.read = BytesIO(self.comp + self.extra).read
        self.unpacked = UnpackedObject(
            Tree.type_num, decomp_len=len(self.decomp), crc32=0
        )

    def test_decompress_size(self) -> None:
        good_decomp_len = len(self.decomp)
        self.unpacked.decomp_len = -1
        self.assertRaises(ValueError, read_zlib_chunks, self.read, self.unpacked)
        self.unpacked.decomp_len = good_decomp_len - 1
        self.assertRaises(zlib.error, read_zlib_chunks, self.read, self.unpacked)
        self.unpacked.decomp_len = good_decomp_len + 1
        self.assertRaises(zlib.error, read_zlib_chunks, self.read, self.unpacked)

    def test_decompress_truncated(self) -> None:
        read = BytesIO(self.comp[:10]).read
        self.assertRaises(zlib.error, read_zlib_chunks, read, self.unpacked)

        read = BytesIO(self.comp).read
        self.assertRaises(zlib.error, read_zlib_chunks, read, self.unpacked)

    def test_decompress_empty(self) -> None:
        unpacked = UnpackedObject(Tree.type_num, decomp_len=0)
        comp = zlib.compress(b"")
        read = BytesIO(comp + self.extra).read
        unused = read_zlib_chunks(read, unpacked)
        self.assertEqual(b"", b"".join(unpacked.decomp_chunks))
        self.assertNotEqual(b"", unused)
        self.assertEqual(self.extra, unused + read())

    def test_decompress_no_crc32(self) -> None:
        self.unpacked.crc32 = None
        read_zlib_chunks(self.read, self.unpacked)
        self.assertEqual(None, self.unpacked.crc32)

    def _do_decompress_test(self, buffer_size, **kwargs) -> None:
        unused = read_zlib_chunks(
            self.read, self.unpacked, buffer_size=buffer_size, **kwargs
        )
        self.assertEqual(self.decomp, b"".join(self.unpacked.decomp_chunks))
        self.assertEqual(zlib.crc32(self.comp), self.unpacked.crc32)
        self.assertNotEqual(b"", unused)
        self.assertEqual(self.extra, unused + self.read())

    def test_simple_decompress(self) -> None:
        self._do_decompress_test(4096)
        self.assertEqual(None, self.unpacked.comp_chunks)

    # These buffer sizes are not intended to be realistic, but rather simulate
    # larger buffer sizes that may end at various places.
    def test_decompress_buffer_size_1(self) -> None:
        self._do_decompress_test(1)

    def test_decompress_buffer_size_2(self) -> None:
        self._do_decompress_test(2)

    def test_decompress_buffer_size_3(self) -> None:
        self._do_decompress_test(3)

    def test_decompress_buffer_size_4(self) -> None:
        self._do_decompress_test(4)

    def test_decompress_include_comp(self) -> None:
        self._do_decompress_test(4096, include_comp=True)
        self.assertEqual(self.comp, b"".join(self.unpacked.comp_chunks))


class DeltifyTests(TestCase):
    def test_empty(self) -> None:
        self.assertEqual([], list(deltify_pack_objects([])))

    def test_single(self) -> None:
        b = Blob.from_string(b"foo")
        self.assertEqual(
            [
                UnpackedObject(
                    b.type_num,
                    sha=b.sha().digest(),
                    delta_base=None,
                    decomp_chunks=b.as_raw_chunks(),
                )
            ],
            list(deltify_pack_objects([(b, b"")])),
        )

    def test_simple_delta(self) -> None:
        b1 = Blob.from_string(b"a" * 101)
        b2 = Blob.from_string(b"a" * 100)
        delta = list(create_delta(b1.as_raw_chunks(), b2.as_raw_chunks()))
        self.assertEqual(
            [
                UnpackedObject(
                    b1.type_num,
                    sha=b1.sha().digest(),
                    delta_base=None,
                    decomp_chunks=b1.as_raw_chunks(),
                ),
                UnpackedObject(
                    b2.type_num,
                    sha=b2.sha().digest(),
                    delta_base=b1.sha().digest(),
                    decomp_chunks=delta,
                ),
            ],
            list(deltify_pack_objects([(b1, b""), (b2, b"")])),
        )


class TestPackStreamReader(TestCase):
    def test_read_objects_emtpy(self) -> None:
        f = BytesIO()
        build_pack(f, [])
        reader = PackStreamReader(DEFAULT_OBJECT_FORMAT.hash_func, f.read)
        self.assertEqual(0, len(list(reader.read_objects())))

    def test_read_objects(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (Blob.type_num, b"blob"),
                (OFS_DELTA, (0, b"blob1")),
            ],
        )
        reader = PackStreamReader(DEFAULT_OBJECT_FORMAT.hash_func, f.read)
        objects = list(reader.read_objects(compute_crc32=True))
        self.assertEqual(2, len(objects))

        unpacked_blob, unpacked_delta = objects

        self.assertEqual(entries[0][0], unpacked_blob.offset)
        self.assertEqual(Blob.type_num, unpacked_blob.pack_type_num)
        self.assertEqual(Blob.type_num, unpacked_blob.obj_type_num)
        self.assertEqual(None, unpacked_blob.delta_base)
        self.assertEqual(b"blob", b"".join(unpacked_blob.decomp_chunks))
        self.assertEqual(entries[0][4], unpacked_blob.crc32)

        self.assertEqual(entries[1][0], unpacked_delta.offset)
        self.assertEqual(OFS_DELTA, unpacked_delta.pack_type_num)
        self.assertEqual(None, unpacked_delta.obj_type_num)
        self.assertEqual(
            unpacked_delta.offset - unpacked_blob.offset,
            unpacked_delta.delta_base,
        )
        delta = create_delta(b"blob", b"blob1")
        self.assertEqual(b"".join(delta), b"".join(unpacked_delta.decomp_chunks))
        self.assertEqual(entries[1][4], unpacked_delta.crc32)

    def test_read_objects_buffered(self) -> None:
        f = BytesIO()
        build_pack(
            f,
            [
                (Blob.type_num, b"blob"),
                (OFS_DELTA, (0, b"blob1")),
            ],
        )
        reader = PackStreamReader(
            DEFAULT_OBJECT_FORMAT.hash_func, f.read, zlib_bufsize=4
        )
        self.assertEqual(2, len(list(reader.read_objects())))

    def test_read_objects_empty(self) -> None:
        reader = PackStreamReader(DEFAULT_OBJECT_FORMAT.hash_func, BytesIO().read)
        self.assertRaises(AssertionError, list, reader.read_objects())


class TestPackIterator(DeltaChainIterator):
    _compute_crc32 = True

    def __init__(self, *args, **kwargs) -> None:
        super().__init__(*args, **kwargs)
        self._unpacked_offsets: set[int] = set()

    def _result(self, unpacked):
        """Return entries in the same format as build_pack."""
        return (
            unpacked.offset,
            unpacked.obj_type_num,
            b"".join(unpacked.obj_chunks),
            unpacked.sha(),
            unpacked.crc32,
        )

    def _resolve_object(self, offset, pack_type_num, base_chunks):
        assert offset not in self._unpacked_offsets, (
            f"Attempted to re-inflate offset {offset}"
        )
        self._unpacked_offsets.add(offset)
        return super()._resolve_object(offset, pack_type_num, base_chunks)


class DeltaChainIteratorTests(TestCase):
    def setUp(self) -> None:
        super().setUp()
        self.store = MemoryObjectStore()
        self.fetched = set()

    def store_blobs(self, blobs_data):
        blobs = []
        for data in blobs_data:
            blob = make_object(Blob, data=data)
            blobs.append(blob)
            self.store.add_object(blob)
        return blobs

    def get_raw_no_repeat(self, bin_sha):
        """Wrapper around store.get_raw that doesn't allow repeat lookups."""
        hex_sha = sha_to_hex(bin_sha)
        self.assertNotIn(
            hex_sha, self.fetched, f"Attempted to re-fetch object {hex_sha}"
        )
        self.fetched.add(hex_sha)
        return self.store.get_raw(hex_sha)

    def make_pack_iter(self, f, thin=None):
        if thin is None:
            thin = bool(list(self.store))
        resolve_ext_ref = (thin and self.get_raw_no_repeat) or None
        data = PackData("test.pack", file=f, object_format=DEFAULT_OBJECT_FORMAT)
        self.addCleanup(data.close)
        return TestPackIterator.for_pack_data(data, resolve_ext_ref=resolve_ext_ref)

    def make_pack_iter_subset(self, f, subset, thin=None):
        if thin is None:
            thin = bool(list(self.store))
        resolve_ext_ref = (thin and self.get_raw_no_repeat) or None
        data = PackData("test.pack", file=f, object_format=DEFAULT_OBJECT_FORMAT)
        assert data
        index = MemoryPackIndex.for_pack(data)
        pack = Pack.from_objects(data, index)
        self.addCleanup(pack.close)
        return TestPackIterator.for_pack_subset(
            pack, subset, resolve_ext_ref=resolve_ext_ref
        )

    def assertEntriesMatch(self, expected_indexes, entries, pack_iter) -> None:
        expected = [entries[i] for i in expected_indexes]
        self.assertEqual(expected, list(pack_iter._walk_all_chains()))

    def test_no_deltas(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (Commit.type_num, b"commit"),
                (Blob.type_num, b"blob"),
                (Tree.type_num, b"tree"),
            ],
        )
        self.assertEntriesMatch([0, 1, 2], entries, self.make_pack_iter(f))
        f.seek(0)
        self.assertEntriesMatch([], entries, self.make_pack_iter_subset(f, []))
        f.seek(0)
        self.assertEntriesMatch(
            [1, 0],
            entries,
            self.make_pack_iter_subset(f, [entries[0][3], entries[1][3]]),
        )
        f.seek(0)
        self.assertEntriesMatch(
            [1, 0],
            entries,
            self.make_pack_iter_subset(
                f, [sha_to_hex(entries[0][3]), sha_to_hex(entries[1][3])]
            ),
        )

    def test_ofs_deltas(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (Blob.type_num, b"blob"),
                (OFS_DELTA, (0, b"blob1")),
                (OFS_DELTA, (0, b"blob2")),
            ],
        )
        # Delta resolution changed to DFS
        self.assertEntriesMatch([0, 2, 1], entries, self.make_pack_iter(f))
        f.seek(0)
        self.assertEntriesMatch(
            [0, 2, 1],
            entries,
            self.make_pack_iter_subset(f, [entries[1][3], entries[2][3]]),
        )

    def test_ofs_deltas_chain(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (Blob.type_num, b"blob"),
                (OFS_DELTA, (0, b"blob1")),
                (OFS_DELTA, (1, b"blob2")),
            ],
        )
        self.assertEntriesMatch([0, 1, 2], entries, self.make_pack_iter(f))

    def test_ref_deltas(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (1, b"blob1")),
                (Blob.type_num, (b"blob")),
                (REF_DELTA, (1, b"blob2")),
            ],
        )
        # Delta resolution changed to DFS
        self.assertEntriesMatch([1, 2, 0], entries, self.make_pack_iter(f))

    def test_ref_deltas_chain(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (2, b"blob1")),
                (Blob.type_num, (b"blob")),
                (REF_DELTA, (1, b"blob2")),
            ],
        )
        self.assertEntriesMatch([1, 2, 0], entries, self.make_pack_iter(f))

    def test_ofs_and_ref_deltas(self) -> None:
        # Deltas pending on this offset are popped before deltas depending on
        # this ref.
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (1, b"blob1")),
                (Blob.type_num, (b"blob")),
                (OFS_DELTA, (1, b"blob2")),
            ],
        )

        # Delta resolution changed to DFS
        self.assertEntriesMatch([1, 0, 2], entries, self.make_pack_iter(f))

    def test_mixed_chain(self) -> None:
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (Blob.type_num, b"blob"),
                (REF_DELTA, (2, b"blob2")),
                (OFS_DELTA, (0, b"blob1")),
                (OFS_DELTA, (1, b"blob3")),
                (OFS_DELTA, (0, b"bob")),
            ],
        )
        # Delta resolution changed to DFS
        self.assertEntriesMatch([0, 4, 2, 1, 3], entries, self.make_pack_iter(f))

    def test_long_chain(self) -> None:
        n = 100
        objects_spec = [(Blob.type_num, b"blob")]
        for i in range(n):
            objects_spec.append((OFS_DELTA, (i, b"blob" + str(i).encode("ascii"))))
        f = BytesIO()
        entries = build_pack(f, objects_spec)
        self.assertEntriesMatch(range(n + 1), entries, self.make_pack_iter(f))

    def test_branchy_chain(self) -> None:
        n = 100
        objects_spec = [(Blob.type_num, b"blob")]
        for i in range(n):
            objects_spec.append((OFS_DELTA, (0, b"blob" + str(i).encode("ascii"))))
        f = BytesIO()
        entries = build_pack(f, objects_spec)
        # Delta resolution changed to DFS
        indices = [0, *list(range(100, 0, -1))]
        self.assertEntriesMatch(indices, entries, self.make_pack_iter(f))

    def test_ext_ref(self) -> None:
        (blob,) = self.store_blobs([b"blob"])
        f = BytesIO()
        entries = build_pack(f, [(REF_DELTA, (blob.id, b"blob1"))], store=self.store)
        pack_iter = self.make_pack_iter(f)
        self.assertEntriesMatch([0], entries, pack_iter)
        self.assertEqual([hex_to_sha(blob.id)], pack_iter.ext_refs())

    def test_ext_ref_chain(self) -> None:
        (blob,) = self.store_blobs([b"blob"])
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (1, b"blob2")),
                (REF_DELTA, (blob.id, b"blob1")),
            ],
            store=self.store,
        )
        pack_iter = self.make_pack_iter(f)
        self.assertEntriesMatch([1, 0], entries, pack_iter)
        self.assertEqual([hex_to_sha(blob.id)], pack_iter.ext_refs())

    def test_ext_ref_chain_degenerate(self) -> None:
        # Test a degenerate case where the sender is sending a REF_DELTA
        # object that expands to an object already in the repository.
        (blob,) = self.store_blobs([b"blob"])
        (blob2,) = self.store_blobs([b"blob2"])
        assert blob.id < blob2.id

        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (blob.id, b"blob2")),
                (REF_DELTA, (0, b"blob3")),
            ],
            store=self.store,
        )
        pack_iter = self.make_pack_iter(f)
        self.assertEntriesMatch([0, 1], entries, pack_iter)
        self.assertEqual([hex_to_sha(blob.id)], pack_iter.ext_refs())

    def test_ext_ref_multiple_times(self) -> None:
        (blob,) = self.store_blobs([b"blob"])
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (blob.id, b"blob1")),
                (REF_DELTA, (blob.id, b"blob2")),
            ],
            store=self.store,
        )
        pack_iter = self.make_pack_iter(f)
        self.assertEntriesMatch([0, 1], entries, pack_iter)
        self.assertEqual([hex_to_sha(blob.id)], pack_iter.ext_refs())

    def test_multiple_ext_refs(self) -> None:
        b1, b2 = self.store_blobs([b"foo", b"bar"])
        f = BytesIO()
        entries = build_pack(
            f,
            [
                (REF_DELTA, (b1.id, b"foo1")),
                (REF_DELTA, (b2.id, b"bar2")),
            ],
            store=self.store,
        )
        pack_iter = self.make_pack_iter(f)
        self.assertEntriesMatch([0, 1], entries, pack_iter)
        self.assertEqual([hex_to_sha(b1.id), hex_to_sha(b2.id)], pack_iter.ext_refs())

    def test_bad_ext_ref_non_thin_pack(self) -> None:
        (blob,) = self.store_blobs([b"blob"])
        f = BytesIO()
        build_pack(f, [(REF_DELTA, (blob.id, b"blob1"))], store=self.store)
        pack_iter = self.make_pack_iter(f, thin=False)
        try:
            list(pack_iter._walk_all_chains())
            self.fail()
        except UnresolvedDeltas as e:
            self.assertEqual([blob.id], e.shas)

    def test_bad_ext_ref_thin_pack(self) -> None:
        b1, b2, b3 = self.store_blobs([b"foo", b"bar", b"baz"])
        f = BytesIO()
        build_pack(
            f,
            [
                (REF_DELTA, (1, b"foo99")),
                (REF_DELTA, (b1.id, b"foo1")),
                (REF_DELTA, (b2.id, b"bar2")),
                (REF_DELTA, (b3.id, b"baz3")),
            ],
            store=self.store,
        )
        del self.store[b2.id]
        del self.store[b3.id]
        pack_iter = self.make_pack_iter(f)
        try:
            list(pack_iter._walk_all_chains())
            self.fail()
        except UnresolvedDeltas as e:
            self.assertEqual((sorted([b2.id, b3.id]),), (sorted(e.shas),))

    def test_ext_ref_deltified_object_based_on_itself(self) -> None:
        b1_content = b"foo"
        (b1,) = self.store_blobs([b1_content])
        f = BytesIO()
        build_pack(
            f,
            [
                # b1's content refers to bl1's object ID as delta base
                (REF_DELTA, (b1.id, b1_content)),
            ],
            store=self.store,
        )
        fsize = f.tell()
        f.seek(0)
        packdata = PackData.from_file(f, DEFAULT_OBJECT_FORMAT, fsize)
        td = tempfile.mkdtemp()
        idx_path = os.path.join(td, "test.idx")
        self.addCleanup(shutil.rmtree, td)
        packdata.create_index(
            idx_path,
            version=2,
            resolve_ext_ref=self.get_raw_no_repeat,
        )
        packindex = load_pack_index(idx_path, DEFAULT_OBJECT_FORMAT)
        pack = Pack.from_objects(packdata, packindex)
        try:
            # Attempting to open this REF_DELTA object would loop forever
            pack[b1.id]
        except UnresolvedDeltas as e:
            self.assertEqual([b1.id], [sha_to_hex(sha) for sha in e.shas])
        finally:
            pack.close()
            packdata.close()


class DeltaEncodeSizeTests(TestCase):
    def test_basic(self) -> None:
        self.assertEqual(b"\x00", _delta_encode_size(0))
        self.assertEqual(b"\x01", _delta_encode_size(1))
        self.assertEqual(b"\xfa\x01", _delta_encode_size(250))
        self.assertEqual(b"\xe8\x07", _delta_encode_size(1000))
        self.assertEqual(b"\xa0\x8d\x06", _delta_encode_size(100000))


class EncodeCopyOperationTests(TestCase):
    def test_basic(self) -> None:
        self.assertEqual(b"\x80", _encode_copy_operation(0, 0))
        self.assertEqual(b"\x91\x01\x0a", _encode_copy_operation(1, 10))
        self.assertEqual(b"\xb1\x64\xe8\x03", _encode_copy_operation(100, 1000))
        self.assertEqual(b"\x93\xe8\x03\x01", _encode_copy_operation(1000, 1))