# -*- coding: utf-8 -*- ''' tests.integration.modules.pip ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ''' # Import python libs from __future__ import absolute_import, print_function, unicode_literals import os import re import sys import pprint import shutil import tempfile # Import Salt Testing libs from tests.support.runtests import RUNTIME_VARS from tests.support.case import ModuleCase from tests.support.unit import skipIf from tests.support.helpers import patched_environ # Import salt libs import salt.utils.files import salt.utils.path import salt.utils.platform from salt.modules.virtualenv_mod import KNOWN_BINARY_NAMES import pytest @skipIf(salt.utils.path.which_bin(KNOWN_BINARY_NAMES) is None, 'virtualenv not installed') @pytest.mark.windows_whitelisted class PipModuleTest(ModuleCase): def setUp(self): super(PipModuleTest, self).setUp() self.venv_test_dir = tempfile.mkdtemp(dir=RUNTIME_VARS.TMP) # Remove the venv test directory self.addCleanup(shutil.rmtree, self.venv_test_dir, ignore_errors=True) self.venv_dir = os.path.join(self.venv_test_dir, 'venv') self.pip_temp = os.path.join(self.venv_test_dir, '.pip-temp') if not os.path.isdir(self.pip_temp): os.makedirs(self.pip_temp) self.patched_environ = patched_environ( PIP_SOURCE_DIR='', PIP_BUILD_DIR='', __cleanup__=[k for k in os.environ if k.startswith('PIP_')] ) self.patched_environ.__enter__() self.addCleanup(self.patched_environ.__exit__) def _create_virtualenv(self, path): ''' The reason why the virtualenv creation is proxied by this function is mostly because under windows, we can't seem to properly create a virtualenv off of another virtualenv(we can on linux) and also because, we really don't want to test virtualenv creation off of another virtualenv, we want a virtualenv created from the original python. Also, one windows, we must also point to the virtualenv binary outside the existing virtualenv because it will fail otherwise ''' try: if salt.utils.platform.is_windows(): python = os.path.join(sys.real_prefix, os.path.basename(sys.executable)) else: python_binary_names = [ 'python{}.{}'.format(*sys.version_info), 'python{}'.format(*sys.version_info), 'python' ] for binary_name in python_binary_names: python = os.path.join(sys.real_prefix, 'bin', binary_name) if os.path.exists(python): break else: self.fail( 'Couldn\'t find a python binary name under \'{}\' matching: {}'.format( os.path.join(sys.real_prefix, 'bin'), python_binary_names ) ) # We're running off a virtualenv, and we don't want to create a virtualenv off of # a virtualenv kwargs = {'python': python} except AttributeError: # We're running off of the system python kwargs = {} self.run_function('virtualenv.create', [path], **kwargs) def _check_download_error(self, ret): ''' Checks to see if a download error looks transitory ''' return any(w in ret for w in ['URLError', 'Download error']) def pip_successful_install(self, target, expect=('irc3-plugins-test', 'pep8',)): ''' isolate regex for extracting `successful install` message from pip ''' expect = set(expect) expect_str = '|'.join(expect) success = re.search( r'^.*Successfully installed\s([^\n]+)(?:Clean.*)?', target, re.M | re.S) success_for = re.findall( r'({0})(?:-(?:[\d\.-]))?'.format(expect_str), success.groups()[0] ) if success else [] return expect.issubset(set(success_for)) def test_issue_2087_missing_pip(self): # Let's create the testing virtualenv self._create_virtualenv(self.venv_dir) # Let's remove the pip binary pip_bin = os.path.join(self.venv_dir, 'bin', 'pip') site_dir = self.run_function('virtualenv.get_distribution_path', [self.venv_dir, 'pip']) if salt.utils.platform.is_windows(): pip_bin = os.path.join(self.venv_dir, 'Scripts', 'pip.exe') site_dir = os.path.join(self.venv_dir, 'lib', 'site-packages') if not os.path.isfile(pip_bin): self.skipTest( 'Failed to find the pip binary to the test virtualenv' ) os.remove(pip_bin) # Also remove the pip dir from site-packages # This is needed now that we're using python -m pip instead of the # pip binary directly. python -m pip will still work even if the # pip binary is missing shutil.rmtree(os.path.join(site_dir, 'pip')) # Let's run a pip depending functions for func in ('pip.freeze', 'pip.list'): ret = self.run_function(func, bin_env=self.venv_dir) self.assertIn( 'Command required for \'{0}\' not found: ' 'Could not find a `pip` binary'.format(func), ret ) def test_requirements_as_list_of_chains__cwd_set__absolute_file_path(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req1_filename = os.path.join(self.venv_dir, 'requirements1.txt') req1b_filename = os.path.join(self.venv_dir, 'requirements1b.txt') req2_filename = os.path.join(self.venv_dir, 'requirements2.txt') req2b_filename = os.path.join(self.venv_dir, 'requirements2b.txt') with salt.utils.files.fopen(req1_filename, 'w') as f: f.write('-r requirements1b.txt\n') with salt.utils.files.fopen(req1b_filename, 'w') as f: f.write('irc3-plugins-test\n') with salt.utils.files.fopen(req2_filename, 'w') as f: f.write('-r requirements2b.txt\n') with salt.utils.files.fopen(req2b_filename, 'w') as f: f.write('pep8\n') requirements_list = [req1_filename, req2_filename] ret = self.run_function( 'pip.install', requirements=requirements_list, bin_env=self.venv_dir, cwd=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) found = self.pip_successful_install(ret['stdout']) self.assertTrue(found) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_requirements_as_list_of_chains__cwd_not_set__absolute_file_path(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req1_filename = os.path.join(self.venv_dir, 'requirements1.txt') req1b_filename = os.path.join(self.venv_dir, 'requirements1b.txt') req2_filename = os.path.join(self.venv_dir, 'requirements2.txt') req2b_filename = os.path.join(self.venv_dir, 'requirements2b.txt') with salt.utils.files.fopen(req1_filename, 'w') as f: f.write('-r requirements1b.txt\n') with salt.utils.files.fopen(req1b_filename, 'w') as f: f.write('irc3-plugins-test\n') with salt.utils.files.fopen(req2_filename, 'w') as f: f.write('-r requirements2b.txt\n') with salt.utils.files.fopen(req2b_filename, 'w') as f: f.write('pep8\n') requirements_list = [req1_filename, req2_filename] ret = self.run_function( 'pip.install', requirements=requirements_list, bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) found = self.pip_successful_install(ret['stdout']) self.assertTrue(found) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_requirements_as_list__absolute_file_path(self): self._create_virtualenv(self.venv_dir) req1_filename = os.path.join(self.venv_dir, 'requirements.txt') req2_filename = os.path.join(self.venv_dir, 'requirements2.txt') with salt.utils.files.fopen(req1_filename, 'w') as f: f.write('irc3-plugins-test\n') with salt.utils.files.fopen(req2_filename, 'w') as f: f.write('pep8\n') requirements_list = [req1_filename, req2_filename] ret = self.run_function( 'pip.install', requirements=requirements_list, bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) found = self.pip_successful_install(ret['stdout']) self.assertTrue(found) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_requirements_as_list__non_absolute_file_path(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req1_filename = 'requirements.txt' req2_filename = 'requirements2.txt' req_cwd = self.venv_dir req1_filepath = os.path.join(req_cwd, req1_filename) req2_filepath = os.path.join(req_cwd, req2_filename) with salt.utils.files.fopen(req1_filepath, 'w') as f: f.write('irc3-plugins-test\n') with salt.utils.files.fopen(req2_filepath, 'w') as f: f.write('pep8\n') requirements_list = [req1_filename, req2_filename] ret = self.run_function( 'pip.install', requirements=requirements_list, bin_env=self.venv_dir, cwd=req_cwd ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) found = self.pip_successful_install(ret['stdout']) self.assertTrue(found) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_chained_requirements__absolute_file_path(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req1_filename = os.path.join(self.venv_dir, 'requirements.txt') req2_filename = os.path.join(self.venv_dir, 'requirements2.txt') with salt.utils.files.fopen(req1_filename, 'w') as f: f.write('-r requirements2.txt') with salt.utils.files.fopen(req2_filename, 'w') as f: f.write('pep8') ret = self.run_function( 'pip.install', requirements=req1_filename, bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_chained_requirements__non_absolute_file_path(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req_basepath = (self.venv_dir) req1_filename = 'requirements.txt' req2_filename = 'requirements2.txt' req1_file = os.path.join(self.venv_dir, req1_filename) req2_file = os.path.join(self.venv_dir, req2_filename) with salt.utils.files.fopen(req1_file, 'w') as f: f.write('-r requirements2.txt') with salt.utils.files.fopen(req2_file, 'w') as f: f.write('pep8') ret = self.run_function( 'pip.install', requirements=req1_filename, cwd=req_basepath, bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_issue_4805_nested_requirements(self): self._create_virtualenv(self.venv_dir) # Create a requirements file that depends on another one. req1_filename = os.path.join(self.venv_dir, 'requirements.txt') req2_filename = os.path.join(self.venv_dir, 'requirements2.txt') with salt.utils.files.fopen(req1_filename, 'w') as f: f.write('-r requirements2.txt') with salt.utils.files.fopen(req2_filename, 'w') as f: f.write('pep8') ret = self.run_function( 'pip.install', requirements=req1_filename, bin_env=self.venv_dir, timeout=300) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_pip_uninstall(self): # Let's create the testing virtualenv self._create_virtualenv(self.venv_dir) ret = self.run_function('pip.install', ['pep8'], bin_env=self.venv_dir) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) ret = self.run_function( 'pip.uninstall', ['pep8'], bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.uninstall\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) self.assertIn('uninstalled pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_pip_install_upgrade(self): # Create the testing virtualenv self._create_virtualenv(self.venv_dir) ret = self.run_function( 'pip.install', ['pep8==1.3.4'], bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) ret = self.run_function( 'pip.install', ['pep8'], bin_env=self.venv_dir, upgrade=True ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) self.assertIn('installed pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) ret = self.run_function( 'pip.uninstall', ['pep8'], bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.uninstall\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: self.assertEqual(ret['retcode'], 0) self.assertIn('uninstalled pep8', ret['stdout']) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_pip_install_multiple_editables(self): editables = [ 'git+https://github.com/jek/blinker.git#egg=Blinker', 'git+https://github.com/saltstack/salt-testing.git#egg=SaltTesting' ] # Create the testing virtualenv self._create_virtualenv(self.venv_dir) ret = self.run_function( 'pip.install', [], editable='{0}'.format(','.join(editables)), bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) self.assertIn( 'Successfully installed Blinker SaltTesting', ret['stdout'] ) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) def test_pip_install_multiple_editables_and_pkgs(self): editables = [ 'git+https://github.com/jek/blinker.git#egg=Blinker', 'git+https://github.com/saltstack/salt-testing.git#egg=SaltTesting' ] # Create the testing virtualenv self._create_virtualenv(self.venv_dir) ret = self.run_function( 'pip.install', ['pep8'], editable='{0}'.format(','.join(editables)), bin_env=self.venv_dir ) if not isinstance(ret, dict): self.fail( 'The \'pip.install\' command did not return the excepted dictionary. Output:\n{}'.format(ret) ) try: if self._check_download_error(ret['stdout']): self.skipTest('Test skipped due to pip download error') self.assertEqual(ret['retcode'], 0) for package in ('Blinker', 'SaltTesting', 'pep8'): self.assertRegex( ret['stdout'], r'(?:.*)(Successfully installed)(?:.*)({0})(?:.*)'.format(package) ) except KeyError as exc: self.fail( 'The returned dictionary is missing an expected key. Error: \'{}\'. Dictionary: {}'.format( exc, pprint.pformat(ret) ) ) @skipIf(not os.path.isfile('pip3'), 'test where pip3 is installed') @skipIf(salt.utils.platform.is_windows(), 'test specific for linux usage of /bin/python') def test_system_pip3(self): self.run_function('pip.install', pkgs=['lazyimport==0.0.1'], bin_env='/bin/pip3') ret1 = self.run_function('cmd.run', '/bin/pip3 freeze | grep lazyimport') self.run_function('pip.uninstall', pkgs=['lazyimport'], bin_env='/bin/pip3') ret2 = self.run_function('cmd.run', '/bin/pip3 freeze | grep lazyimport') assert 'lazyimport==0.0.1' in ret1 assert ret2 == ''