def __init__(self, signaler=None):
        """
        Constructor for the EIP component

        :param signaler: Object in charge of handling communication
                         back to the frontend
        :type signaler: Signaler
        """
        self.key = "eip"
        self._signaler = signaler
        self._eip_bootstrapper = EIPBootstrapper(signaler)
        self._eip_setup_defer = None
        self._provider_config = ProviderConfig()

        self._vpn = vpnprocess.VPN(signaler=signaler)
 def setUp(self):
     self.eb = EIPBootstrapper()
     self.old_pp = util.get_path_prefix
     self.old_save = EIPConfig.save
     self.old_load = EIPConfig.load
     self.old_si = SRPAuth.get_session_id
class EIPBootstrapperActiveTest(BaseLeapTest):
    @classmethod
    def setUpClass(cls):
        BaseLeapTest.setUpClass()
        factory = fake_provider.get_provider_factory()
        http = reactor.listenTCP(0, factory)
        https = reactor.listenSSL(
            0, factory,
            fake_provider.OpenSSLServerContextFactory())
        get_port = lambda p: p.getHost().port
        cls.http_port = get_port(http)
        cls.https_port = get_port(https)

    def setUp(self):
        self.eb = EIPBootstrapper()
        self.old_pp = util.get_path_prefix
        self.old_save = EIPConfig.save
        self.old_load = EIPConfig.load
        self.old_si = SRPAuth.get_session_id

    def tearDown(self):
        util.get_path_prefix = self.old_pp
        EIPConfig.save = self.old_save
        EIPConfig.load = self.old_load
        SRPAuth.get_session_id = self.old_si

    def _download_config_test_template(self, ifneeded, new):
        """
        All download config tests have the same structure, so this is
        a parametrized test for that.

        :param ifneeded: sets _download_if_needed
        :type ifneeded: bool
        :param new: if True uses time.time() as mtime for the mocked
                    eip-service file, otherwise it uses 100 (a really
                    old mtime)
        :type new: float or int (will be coersed)
        """
        pc = ProviderConfig()
        pc.get_domain = mock.MagicMock(
            return_value="localhost:%s" % (self.https_port))
        self.eb._provider_config = pc

        pc.get_api_uri = mock.MagicMock(
            return_value="https://%s" % (pc.get_domain()))
        pc.get_api_version = mock.MagicMock(return_value="1")

        # This is to ignore https checking, since it's not the point
        # of this test
        pc.get_ca_cert_path = mock.MagicMock(return_value=False)

        path_prefix = tempfile.mkdtemp()
        util.get_path_prefix = mock.MagicMock(return_value=path_prefix)
        EIPConfig.save = mock.MagicMock()
        EIPConfig.load = mock.MagicMock()

        self.eb._download_if_needed = ifneeded

        provider_dir = os.path.join(util.get_path_prefix(),
                                    "leap",
                                    "providers",
                                    pc.get_domain())
        mkdir_p(provider_dir)
        eip_config_path = os.path.join(provider_dir,
                                       "eip-service.json")

        with open(eip_config_path, "w") as ec:
            ec.write("A")

        # set mtime to something really new
        if new:
            os.utime(eip_config_path, (-1, time.time()))
        else:
            os.utime(eip_config_path, (-1, 100))

    @deferred()
    def test_download_config_not_modified(self):
        self._download_config_test_template(True, True)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.assertFalse(self.eb._eip_config.save.called)
        d.addCallback(check)
        return d

    @deferred()
    def test_download_config_modified(self):
        self._download_config_test_template(True, False)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.assertTrue(self.eb._eip_config.save.called)
        d.addCallback(check)
        return d

    @deferred()
    def test_download_config_ignores_mtime(self):
        self._download_config_test_template(False, True)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.eb._eip_config.save.assert_called_once_with(
                ("leap",
                 "providers",
                 self.eb._provider_config.get_domain(),
                 "eip-service.json"))
        d.addCallback(check)
        return d

    def _download_certificate_test_template(self, ifneeded, createcert):
        """
        All download client certificate tests have the same structure,
        so this is a parametrized test for that.

        :param ifneeded: sets _download_if_needed
        :type ifneeded: bool
        :param createcert: if True it creates a dummy file to play the
                           part of a downloaded certificate
        :type createcert: bool

        :returns: the temp eip cert path and the dummy cert contents
        :rtype: tuple of str, str
        """
        pc = ProviderConfig()
        ec = EIPConfig()
        self.eb._provider_config = pc
        self.eb._eip_config = ec

        pc.get_domain = mock.MagicMock(
            return_value="localhost:%s" % (self.https_port))
        pc.get_api_uri = mock.MagicMock(
            return_value="https://%s" % (pc.get_domain()))
        pc.get_api_version = mock.MagicMock(return_value="1")
        pc.get_ca_cert_path = mock.MagicMock(return_value=False)

        path_prefix = tempfile.mkdtemp()
        util.get_path_prefix = mock.MagicMock(return_value=path_prefix)
        EIPConfig.save = mock.MagicMock()
        EIPConfig.load = mock.MagicMock()

        self.eb._download_if_needed = ifneeded

        provider_dir = os.path.join(util.get_path_prefix(),
                                    "leap",
                                    "providers",
                                    "somedomain")
        mkdir_p(provider_dir)
        eip_cert_path = os.path.join(provider_dir,
                                     "cert")

        ec.get_client_cert_path = mock.MagicMock(
            return_value=eip_cert_path)

        cert_content = "A"
        if createcert:
            with open(eip_cert_path, "w") as ec:
                ec.write(cert_content)

        return eip_cert_path, cert_content

    def test_download_client_certificate_not_modified(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        with mock.patch('leap.common.certs.should_redownload',
                        new_callable=mock.MagicMock,
                        return_value=False):
            self.eb._download_client_certificates()
            with open(cert_path, "r") as c:
                self.assertEqual(c.read(), old_cert_content)

    @deferred()
    def test_download_client_certificate_old_cert(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            with open(cert_path, "r") as c:
                self.assertNotEqual(c.read(), old_cert_content)
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_no_cert(self):
        cert_path, _ = self._download_certificate_test_template(
            True, False)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=False):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            self.assertTrue(os.path.exists(cert_path))
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_force_not_valid(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            with open(cert_path, "r") as c:
                self.assertNotEqual(c.read(), old_cert_content)
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_invalid_download(self):
        cert_path, _ = self._download_certificate_test_template(
            False, False)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=False):
                    with self.assertRaises(Exception):
                        self.eb._download_client_certificates()
        d = threads.deferToThread(wrapper)

        return d

    @deferred()
    def test_download_client_certificate_uses_session_id(self):
        _, _ = self._download_certificate_test_template(
            False, False)

        SRPAuth.get_session_id = mock.MagicMock(return_value="1")

        def check_cookie(*args, **kwargs):
            cookies = kwargs.get("cookies", None)
            self.assertEqual(cookies, {'_session_id': '1'})
            return Response()

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=False):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    with mock.patch('requests.sessions.Session.get',
                                    new_callable=mock.MagicMock,
                                    side_effect=check_cookie):
                        with mock.patch('requests.models.Response.content',
                                        new_callable=mock.PropertyMock,
                                        return_value="A"):
                            self.eb._download_client_certificates()

        d = threads.deferToThread(wrapper)

        return d

    @deferred()
    def test_run_eip_setup_checks(self):
        self.eb._download_config = mock.MagicMock()
        self.eb._download_client_certificates = mock.MagicMock()

        d = self.eb.run_eip_setup_checks(ProviderConfig())

        def check(*args):
            self.eb._download_config.assert_called_once_with()
            self.eb._download_client_certificates.assert_called_once_with(None)
        d.addCallback(check)
        return d
 def setUp(self):
     self.eb = EIPBootstrapper()
     self.old_pp = util.get_path_prefix
     self.old_save = EIPConfig.save
     self.old_load = EIPConfig.load
     self.old_si = SRPAuth.get_session_id
class EIPBootstrapperActiveTest(BaseLeapTest):
    @classmethod
    def setUpClass(cls):
        BaseLeapTest.setUpClass()
        factory = fake_provider.get_provider_factory()
        http = reactor.listenTCP(0, factory)
        https = reactor.listenSSL(
            0, factory,
            fake_provider.OpenSSLServerContextFactory())
        get_port = lambda p: p.getHost().port
        cls.http_port = get_port(http)
        cls.https_port = get_port(https)

    def setUp(self):
        self.eb = EIPBootstrapper()
        self.old_pp = util.get_path_prefix
        self.old_save = EIPConfig.save
        self.old_load = EIPConfig.load
        self.old_si = SRPAuth.get_session_id

    def tearDown(self):
        util.get_path_prefix = self.old_pp
        EIPConfig.save = self.old_save
        EIPConfig.load = self.old_load
        SRPAuth.get_session_id = self.old_si

    def _download_config_test_template(self, ifneeded, new):
        """
        All download config tests have the same structure, so this is
        a parametrized test for that.

        :param ifneeded: sets _download_if_needed
        :type ifneeded: bool
        :param new: if True uses time.time() as mtime for the mocked
                    eip-service file, otherwise it uses 100 (a really
                    old mtime)
        :type new: float or int (will be coersed)
        """
        pc = ProviderConfig()
        pc.get_domain = mock.MagicMock(
            return_value="localhost:%s" % (self.https_port))
        self.eb._provider_config = pc

        pc.get_api_uri = mock.MagicMock(
            return_value="https://%s" % (pc.get_domain()))
        pc.get_api_version = mock.MagicMock(return_value="1")

        # This is to ignore https checking, since it's not the point
        # of this test
        pc.get_ca_cert_path = mock.MagicMock(return_value=False)

        path_prefix = tempfile.mkdtemp()
        util.get_path_prefix = mock.MagicMock(return_value=path_prefix)
        EIPConfig.save = mock.MagicMock()
        EIPConfig.load = mock.MagicMock()

        self.eb._download_if_needed = ifneeded

        provider_dir = os.path.join(util.get_path_prefix(),
                                    "leap",
                                    "providers",
                                    pc.get_domain())
        mkdir_p(provider_dir)
        eip_config_path = os.path.join(provider_dir,
                                       "eip-service.json")

        with open(eip_config_path, "w") as ec:
            ec.write("A")

        # set mtime to something really new
        if new:
            os.utime(eip_config_path, (-1, time.time()))
        else:
            os.utime(eip_config_path, (-1, 100))

    @deferred()
    def test_download_config_not_modified(self):
        self._download_config_test_template(True, True)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.assertFalse(self.eb._eip_config.save.called)
        d.addCallback(check)
        return d

    @deferred()
    def test_download_config_modified(self):
        self._download_config_test_template(True, False)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.assertTrue(self.eb._eip_config.save.called)
        d.addCallback(check)
        return d

    @deferred()
    def test_download_config_ignores_mtime(self):
        self._download_config_test_template(False, True)

        d = threads.deferToThread(self.eb._download_config)

        def check(*args):
            self.eb._eip_config.save.assert_called_once_with(
                ("leap",
                 "providers",
                 self.eb._provider_config.get_domain(),
                 "eip-service.json"))
        d.addCallback(check)
        return d

    def _download_certificate_test_template(self, ifneeded, createcert):
        """
        All download client certificate tests have the same structure,
        so this is a parametrized test for that.

        :param ifneeded: sets _download_if_needed
        :type ifneeded: bool
        :param createcert: if True it creates a dummy file to play the
                           part of a downloaded certificate
        :type createcert: bool

        :returns: the temp eip cert path and the dummy cert contents
        :rtype: tuple of str, str
        """
        pc = ProviderConfig()
        ec = EIPConfig()
        self.eb._provider_config = pc
        self.eb._eip_config = ec

        pc.get_domain = mock.MagicMock(
            return_value="localhost:%s" % (self.https_port))
        pc.get_api_uri = mock.MagicMock(
            return_value="https://%s" % (pc.get_domain()))
        pc.get_api_version = mock.MagicMock(return_value="1")
        pc.get_ca_cert_path = mock.MagicMock(return_value=False)

        path_prefix = tempfile.mkdtemp()
        util.get_path_prefix = mock.MagicMock(return_value=path_prefix)
        EIPConfig.save = mock.MagicMock()
        EIPConfig.load = mock.MagicMock()

        self.eb._download_if_needed = ifneeded

        provider_dir = os.path.join(util.get_path_prefix(),
                                    "leap",
                                    "providers",
                                    "somedomain")
        mkdir_p(provider_dir)
        eip_cert_path = os.path.join(provider_dir,
                                     "cert")

        ec.get_client_cert_path = mock.MagicMock(
            return_value=eip_cert_path)

        cert_content = "A"
        if createcert:
            with open(eip_cert_path, "w") as ec:
                ec.write(cert_content)

        return eip_cert_path, cert_content

    def test_download_client_certificate_not_modified(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        with mock.patch('leap.common.certs.should_redownload',
                        new_callable=mock.MagicMock,
                        return_value=False):
            self.eb._download_client_certificates()
            with open(cert_path, "r") as c:
                self.assertEqual(c.read(), old_cert_content)

    @deferred()
    def test_download_client_certificate_old_cert(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            with open(cert_path, "r") as c:
                self.assertNotEqual(c.read(), old_cert_content)
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_no_cert(self):
        cert_path, _ = self._download_certificate_test_template(
            True, False)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=False):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            self.assertTrue(os.path.exists(cert_path))
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_force_not_valid(self):
        cert_path, old_cert_content = self._download_certificate_test_template(
            True, True)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    self.eb._download_client_certificates()

        def check(*args):
            with open(cert_path, "r") as c:
                self.assertNotEqual(c.read(), old_cert_content)
        d = threads.deferToThread(wrapper)
        d.addCallback(check)

        return d

    @deferred()
    def test_download_client_certificate_invalid_download(self):
        cert_path, _ = self._download_certificate_test_template(
            False, False)

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=True):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=False):
                    with self.assertRaises(Exception):
                        self.eb._download_client_certificates()
        d = threads.deferToThread(wrapper)

        return d

    @deferred()
    def test_download_client_certificate_uses_session_id(self):
        _, _ = self._download_certificate_test_template(
            False, False)

        SRPAuth.get_session_id = mock.MagicMock(return_value="1")

        def check_cookie(*args, **kwargs):
            cookies = kwargs.get("cookies", None)
            self.assertEqual(cookies, {'_session_id': '1'})
            return Response()

        def wrapper(*args):
            with mock.patch('leap.common.certs.should_redownload',
                            new_callable=mock.MagicMock,
                            return_value=False):
                with mock.patch('leap.common.certs.is_valid_pemfile',
                                new_callable=mock.MagicMock,
                                return_value=True):
                    with mock.patch('requests.sessions.Session.get',
                                    new_callable=mock.MagicMock,
                                    side_effect=check_cookie):
                        with mock.patch('requests.models.Response.content',
                                        new_callable=mock.PropertyMock,
                                        return_value="A"):
                            self.eb._download_client_certificates()

        d = threads.deferToThread(wrapper)

        return d

    @deferred()
    def test_run_eip_setup_checks(self):
        self.eb._download_config = mock.MagicMock()
        self.eb._download_client_certificates = mock.MagicMock()

        d = self.eb.run_eip_setup_checks(ProviderConfig())

        def check(*args):
            self.eb._download_config.assert_called_once_with()
            self.eb._download_client_certificates.assert_called_once_with(None)
        d.addCallback(check)
        return d