import io import os import shutil import subprocess import sys import pytest import six import pip._internal from tests.lib import SRC_DIR, TestData from tests.lib.path import Path from tests.lib.scripttest import PipTestEnvironment from tests.lib.venv import VirtualEnvironment def pytest_collection_modifyitems(items): for item in items: if not hasattr(item, 'module'): # e.g.: DoctestTextfile continue # Mark network tests as flaky if item.get_marker('network') is not None and "CI" in os.environ: item.add_marker(pytest.mark.flaky(reruns=3)) module_path = os.path.relpath( item.module.__file__, os.path.commonprefix([__file__, item.module.__file__]), ) module_root_dir = module_path.split(os.pathsep)[0] if (module_root_dir.startswith("functional") or module_root_dir.startswith("integration") or module_root_dir.startswith("lib")): item.add_marker(pytest.mark.integration) elif module_root_dir.startswith("unit"): item.add_marker(pytest.mark.unit) # We don't want to allow using the script resource if this is a # unit test, as unit tests should not need all that heavy lifting if set(getattr(item, "funcargnames", [])) & {"script"}: raise RuntimeError( "Cannot use the ``script`` funcarg in a unit test: " "(filename = {}, item = {})".format(module_path, item) ) else: raise RuntimeError( "Unknown test type (filename = {})".format(module_path) ) @pytest.yield_fixture def tmpdir(tmpdir): """ Return a temporary directory path object which is unique to each test function invocation, created as a sub directory of the base temporary directory. The returned object is a ``tests.lib.path.Path`` object. This uses the built-in tmpdir fixture from pytest itself but modified to return our typical path object instead of py.path.local as well as deleting the temporary directories at the end of each test case. """ assert tmpdir.isdir() yield Path(str(tmpdir)) # Clear out the temporary directory after the test has finished using it. # This should prevent us from needing a multiple gigabyte temporary # directory while running the tests. tmpdir.remove(ignore_errors=True) @pytest.fixture(autouse=True) def isolate(tmpdir): """ Isolate our tests so that things like global configuration files and the like do not affect our test results. We use an autouse function scoped fixture because we want to ensure that every test has it's own isolated home directory. """ # TODO: Figure out how to isolate from *system* level configuration files # as well as user level configuration files. # Create a directory to use as our home location. home_dir = os.path.join(str(tmpdir), "home") os.makedirs(home_dir) # Create a directory to use as a fake root fake_root = os.path.join(str(tmpdir), "fake-root") os.makedirs(fake_root) if sys.platform == 'win32': # Note: this will only take effect in subprocesses... home_drive, home_path = os.path.splitdrive(home_dir) os.environ.update({ 'USERPROFILE': home_dir, 'HOMEDRIVE': home_drive, 'HOMEPATH': home_path, }) for env_var, sub_path in ( ('APPDATA', 'AppData/Roaming'), ('LOCALAPPDATA', 'AppData/Local'), ): path = os.path.join(home_dir, *sub_path.split('/')) os.environ[env_var] = path os.makedirs(path) else: # Set our home directory to our temporary directory, this should force # all of our relative configuration files to be read from here instead # of the user's actual $HOME directory. os.environ["HOME"] = home_dir # Isolate ourselves from XDG directories os.environ["XDG_DATA_HOME"] = os.path.join(home_dir, ".local", "share") os.environ["XDG_CONFIG_HOME"] = os.path.join(home_dir, ".config") os.environ["XDG_CACHE_HOME"] = os.path.join(home_dir, ".cache") os.environ["XDG_RUNTIME_DIR"] = os.path.join(home_dir, ".runtime") os.environ["XDG_DATA_DIRS"] = ":".join([ os.path.join(fake_root, "usr", "local", "share"), os.path.join(fake_root, "usr", "share"), ]) os.environ["XDG_CONFIG_DIRS"] = os.path.join(fake_root, "etc", "xdg") # Configure git, because without an author name/email git will complain # and cause test failures. os.environ["GIT_CONFIG_NOSYSTEM"] = "1" os.environ["GIT_AUTHOR_NAME"] = "pip" os.environ["GIT_AUTHOR_EMAIL"] = "pypa-dev@googlegroups.com" # We want to disable the version check from running in the tests os.environ["PIP_DISABLE_PIP_VERSION_CHECK"] = "true" # Make sure tests don't share a requirements tracker. os.environ.pop('PIP_REQ_TRACKER', None) # FIXME: Windows... os.makedirs(os.path.join(home_dir, ".config", "git")) with open(os.path.join(home_dir, ".config", "git", "config"), "wb") as fp: fp.write( b"[user]\n\tname = pip\n\temail = pypa-dev@googlegroups.com\n" ) @pytest.fixture(scope='session') def pip_src(tmpdir_factory): pip_src = Path(str(tmpdir_factory.mktemp('pip_src'))).join('pip_src') # Copy over our source tree so that each use is self contained shutil.copytree( SRC_DIR, pip_src.abspath, ignore=shutil.ignore_patterns( "*.pyc", "__pycache__", "contrib", "docs", "tasks", "*.txt", "tests", "pip.egg-info", "build", "dist", ".tox", ".git", ), ) return pip_src @pytest.yield_fixture(scope='session') def virtualenv_template(tmpdir_factory, pip_src): tmpdir = Path(str(tmpdir_factory.mktemp('virtualenv'))) # Create the virtual environment venv = VirtualEnvironment.create( tmpdir.join("venv_orig"), pip_source_dir=pip_src, relocatable=True, ) # Fix `site.py`. site_py = venv.lib / 'site.py' with open(site_py) as fp: site_contents = fp.read() for pattern, replace in ( ( # Ensure `virtualenv.system_site_packages = True` (needed # for testing `--user`) does not result in adding the real # site-packages' directory to `sys.path`. ( '\ndef virtual_addsitepackages(known_paths):\n' ), ( '\ndef virtual_addsitepackages(known_paths):\n' ' return known_paths\n' ), ), ( # Fix sites ordering: user site must be added before system site. ( '\n paths_in_sys = addsitepackages(paths_in_sys)' '\n paths_in_sys = addusersitepackages(paths_in_sys)\n' ), ( '\n paths_in_sys = addusersitepackages(paths_in_sys)' '\n paths_in_sys = addsitepackages(paths_in_sys)\n' ), ), ): assert pattern in site_contents site_contents = site_contents.replace(pattern, replace) with open(site_py, 'w') as fp: fp.write(site_contents) if sys.platform == 'win32': # Work around setuptools' easy_install.exe # not working properly after relocation. for exe in os.listdir(venv.bin): if exe.startswith('easy_install'): (venv.bin / exe).remove() with open(venv.bin / 'easy_install.bat', 'w') as fp: fp.write('python.exe -m easy_install %*\n') # Rename original virtualenv directory to make sure # it's not reused by mistake from one of the copies. venv_template = tmpdir / "venv_template" os.rename(venv.location, venv_template) yield venv_template tmpdir.rmtree(noerrors=True) @pytest.yield_fixture def virtualenv(virtualenv_template, tmpdir, isolate): """ Return a virtual environment which is unique to each test function invocation created inside of a sub directory of the test function's temporary directory. The returned object is a ``tests.lib.venv.VirtualEnvironment`` object. """ venv_location = tmpdir.join("workspace", "venv") shutil.copytree(virtualenv_template, venv_location, symlinks=True) venv = VirtualEnvironment(venv_location) yield venv venv_location.rmtree(noerrors=True) @pytest.fixture def script(tmpdir, virtualenv): """ Return a PipTestEnvironment which is unique to each test function and will execute all commands inside of the unique virtual environment for this test function. The returned object is a ``tests.lib.scripttest.PipTestEnvironment``. """ return PipTestEnvironment( # The base location for our test environment tmpdir.join("workspace"), # Tell the Test Environment where our virtualenv is located virtualenv=virtualenv.location, # Do not ignore hidden files, they need to be checked as well ignore_hidden=False, # We are starting with an already empty directory start_clear=False, # We want to ensure no temporary files are left behind, so the # PipTestEnvironment needs to capture and assert against temp capture_temp=True, assert_no_temp=True, ) @pytest.fixture(scope="session") def common_wheels(tmpdir_factory): """Provide a directory with latest setuptools and wheel wheels""" wheels_dir = tmpdir_factory.mktemp('common_wheels') subprocess.check_call([ 'pip', 'download', 'wheel', 'setuptools', '-d', str(wheels_dir), ]) yield wheels_dir wheels_dir.remove(ignore_errors=True) @pytest.fixture def data(tmpdir): return TestData.copy(tmpdir.join("data")) class InMemoryPipResult(object): def __init__(self, returncode, stdout): self.returncode = returncode self.stdout = stdout class InMemoryPip(object): def pip(self, *args): orig_stdout = sys.stdout if six.PY3: stdout = io.StringIO() else: stdout = io.BytesIO() sys.stdout = stdout try: returncode = pip._internal.main(list(args)) except SystemExit as e: returncode = e.code or 0 finally: sys.stdout = orig_stdout return InMemoryPipResult(returncode, stdout.getvalue()) @pytest.fixture def in_memory_pip(): return InMemoryPip()