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Direktori : /proc/thread-self/root/opt/cloudlinux/venv/lib/python3.11/site-packages/gitdb/test/ |
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# Copyright (C) 2010, 2011 Sebastian Thiel (byronimo@gmail.com) and contributors # # This module is part of GitDB and is released under # the New BSD License: http://www.opensource.org/licenses/bsd-license.php """Utilities used in ODB testing""" from gitdb import OStream import sys import random from array import array from io import BytesIO import glob import unittest import tempfile import shutil import os import gc import logging from functools import wraps #{ Bases class TestBase(unittest.TestCase): """Base class for all tests TestCase providing access to readonly repositories using the following member variables. * gitrepopath * read-only base path of the git source repository, i.e. .../git/.git """ #{ Invvariants k_env_git_repo = "GITDB_TEST_GIT_REPO_BASE" #} END invariants @classmethod def setUpClass(cls): try: super().setUpClass() except AttributeError: pass cls.gitrepopath = os.environ.get(cls.k_env_git_repo) if not cls.gitrepopath: logging.info( "You can set the %s environment variable to a .git repository of your choice - defaulting to the gitdb repository", cls.k_env_git_repo) ospd = os.path.dirname cls.gitrepopath = os.path.join(ospd(ospd(ospd(__file__))), '.git') # end assure gitrepo is set assert cls.gitrepopath.endswith('.git') #} END bases #{ Decorators def with_rw_directory(func): """Create a temporary directory which can be written to, remove it if the test succeeds, but leave it otherwise to aid additional debugging""" def wrapper(self): path = tempfile.mktemp(prefix=func.__name__) os.mkdir(path) keep = False try: try: return func(self, path) except Exception: sys.stderr.write(f"Test {type(self).__name__}.{func.__name__} failed, output is at {path!r}\n") keep = True raise finally: # Need to collect here to be sure all handles have been closed. It appears # a windows-only issue. In fact things should be deleted, as well as # memory maps closed, once objects go out of scope. For some reason # though this is not the case here unless we collect explicitly. if not keep: gc.collect() shutil.rmtree(path) # END handle exception # END wrapper wrapper.__name__ = func.__name__ return wrapper def with_packs_rw(func): """Function that provides a path into which the packs for testing should be copied. Will pass on the path to the actual function afterwards""" def wrapper(self, path): src_pack_glob = fixture_path('packs/*') copy_files_globbed(src_pack_glob, path, hard_link_ok=True) return func(self, path) # END wrapper wrapper.__name__ = func.__name__ return wrapper #} END decorators #{ Routines def fixture_path(relapath=''): """:return: absolute path into the fixture directory :param relapath: relative path into the fixtures directory, or '' to obtain the fixture directory itself""" return os.path.join(os.path.dirname(__file__), 'fixtures', relapath) def copy_files_globbed(source_glob, target_dir, hard_link_ok=False): """Copy all files found according to the given source glob into the target directory :param hard_link_ok: if True, hard links will be created if possible. Otherwise the files will be copied""" for src_file in glob.glob(source_glob): if hard_link_ok and hasattr(os, 'link'): target = os.path.join(target_dir, os.path.basename(src_file)) try: os.link(src_file, target) except OSError: shutil.copy(src_file, target_dir) # END handle cross device links ( and resulting failure ) else: shutil.copy(src_file, target_dir) # END try hard link # END for each file to copy def make_bytes(size_in_bytes, randomize=False): """:return: string with given size in bytes :param randomize: try to produce a very random stream""" actual_size = size_in_bytes // 4 producer = range(actual_size) if randomize: producer = list(producer) random.shuffle(producer) # END randomize a = array('i', producer) return a.tobytes() def make_object(type, data): """:return: bytes resembling an uncompressed object""" odata = "blob %i\0" % len(data) return odata.encode("ascii") + data def make_memory_file(size_in_bytes, randomize=False): """:return: tuple(size_of_stream, stream) :param randomize: try to produce a very random stream""" d = make_bytes(size_in_bytes, randomize) return len(d), BytesIO(d) #} END routines #{ Stream Utilities class DummyStream: def __init__(self): self.was_read = False self.bytes = 0 self.closed = False def read(self, size): self.was_read = True self.bytes = size def close(self): self.closed = True def _assert(self): assert self.was_read class DeriveTest(OStream): def __init__(self, sha, type, size, stream, *args, **kwargs): self.myarg = kwargs.pop('myarg') self.args = args def _assert(self): assert self.args assert self.myarg #} END stream utilitiess