"""Test GatewayClient""" import os import json import uuid from datetime import datetime from io import StringIO from unittest.mock import patch import nose.tools as nt from tornado import gen from tornado.web import HTTPError from tornado.httpclient import HTTPRequest, HTTPResponse from notebook.gateway.managers import GatewayClient from notebook.utils import maybe_future from .launchnotebook import NotebookTestBase def generate_kernelspec(name): argv_stanza = ['python', '-m', 'ipykernel_launcher', '-f', '{connection_file}'] spec_stanza = {'spec': {'argv': argv_stanza, 'env': {}, 'display_name': name, 'language': 'python', 'interrupt_mode': 'signal', 'metadata': {}}} kernelspec_stanza = {'name': name, 'spec': spec_stanza, 'resources': {}} return kernelspec_stanza # We'll mock up two kernelspecs - kspec_foo and kspec_bar kernelspecs = {'default': 'kspec_foo', 'kernelspecs': {'kspec_foo': generate_kernelspec('kspec_foo'), 'kspec_bar': generate_kernelspec('kspec_bar')}} # maintain a dictionary of expected running kernels. Key = kernel_id, Value = model. running_kernels = dict() def generate_model(name): """Generate a mocked kernel model. Caller is responsible for adding model to running_kernels dictionary.""" dt = datetime.utcnow().isoformat() + 'Z' kernel_id = str(uuid.uuid4()) model = {'id': kernel_id, 'name': name, 'last_activity': str(dt), 'execution_state': 'idle', 'connections': 1} return model @gen.coroutine def mock_gateway_request(url, **kwargs): method = 'GET' if kwargs['method']: method = kwargs['method'] request = HTTPRequest(url=url, **kwargs) endpoint = str(url) # Fetch all kernelspecs if endpoint.endswith('/api/kernelspecs') and method == 'GET': response_buf = StringIO(json.dumps(kernelspecs)) response = yield maybe_future(HTTPResponse(request, 200, buffer=response_buf)) raise gen.Return(response) # Fetch named kernelspec if endpoint.rfind('/api/kernelspecs/') >= 0 and method == 'GET': requested_kernelspec = endpoint.rpartition('/')[2] kspecs = kernelspecs.get('kernelspecs') if requested_kernelspec in kspecs: response_buf = StringIO(json.dumps(kspecs.get(requested_kernelspec))) response = yield maybe_future(HTTPResponse(request, 200, buffer=response_buf)) raise gen.Return(response) else: raise HTTPError(404, message='Kernelspec does not exist: %s' % requested_kernelspec) # Create kernel if endpoint.endswith('/api/kernels') and method == 'POST': json_body = json.loads(kwargs['body']) name = json_body.get('name') env = json_body.get('env') kspec_name = env.get('KERNEL_KSPEC_NAME') nt.assert_equal(name, kspec_name) # Ensure that KERNEL_ env values get propagated model = generate_model(name) running_kernels[model.get('id')] = model # Register model as a running kernel response_buf = StringIO(json.dumps(model)) response = yield maybe_future(HTTPResponse(request, 201, buffer=response_buf)) raise gen.Return(response) # Fetch list of running kernels if endpoint.endswith('/api/kernels') and method == 'GET': kernels = [] for kernel_id in running_kernels.keys(): model = running_kernels.get(kernel_id) kernels.append(model) response_buf = StringIO(json.dumps(kernels)) response = yield maybe_future(HTTPResponse(request, 200, buffer=response_buf)) raise gen.Return(response) # Interrupt or restart existing kernel if endpoint.rfind('/api/kernels/') >= 0 and method == 'POST': requested_kernel_id, sep, action = endpoint.rpartition('/api/kernels/')[2].rpartition('/') if action == 'interrupt': if requested_kernel_id in running_kernels: response = yield maybe_future(HTTPResponse(request, 204)) raise gen.Return(response) else: raise HTTPError(404, message='Kernel does not exist: %s' % requested_kernel_id) elif action == 'restart': if requested_kernel_id in running_kernels: response_buf = StringIO(json.dumps(running_kernels.get(requested_kernel_id))) response = yield maybe_future(HTTPResponse(request, 204, buffer=response_buf)) raise gen.Return(response) else: raise HTTPError(404, message='Kernel does not exist: %s' % requested_kernel_id) else: raise HTTPError(404, message='Bad action detected: %s' % action) # Shutdown existing kernel if endpoint.rfind('/api/kernels/') >= 0 and method == 'DELETE': requested_kernel_id = endpoint.rpartition('/')[2] running_kernels.pop(requested_kernel_id) # Simulate shutdown by removing kernel from running set response = yield maybe_future(HTTPResponse(request, 204)) raise gen.Return(response) # Fetch existing kernel if endpoint.rfind('/api/kernels/') >= 0 and method == 'GET': requested_kernel_id = endpoint.rpartition('/')[2] if requested_kernel_id in running_kernels: response_buf = StringIO(json.dumps(running_kernels.get(requested_kernel_id))) response = yield maybe_future(HTTPResponse(request, 200, buffer=response_buf)) raise gen.Return(response) else: raise HTTPError(404, message='Kernel does not exist: %s' % requested_kernel_id) mocked_gateway = patch('notebook.gateway.managers.gateway_request', mock_gateway_request) class TestGateway(NotebookTestBase): mock_gateway_url = 'http://mock-gateway-server:8889' mock_http_user = 'alice' @classmethod def setup_class(cls): GatewayClient.clear_instance() super(TestGateway, cls).setup_class() @classmethod def teardown_class(cls): GatewayClient.clear_instance() super(TestGateway, cls).teardown_class() @classmethod def get_patch_env(cls): test_env = super(TestGateway, cls).get_patch_env() test_env.update({'JUPYTER_GATEWAY_URL': TestGateway.mock_gateway_url, 'JUPYTER_GATEWAY_REQUEST_TIMEOUT': '44.4'}) return test_env @classmethod def get_argv(cls): argv = super(TestGateway, cls).get_argv() argv.extend(['--GatewayClient.connect_timeout=44.4', '--GatewayClient.http_user=' + TestGateway.mock_http_user]) return argv def test_gateway_options(self): nt.assert_equal(self.notebook.gateway_config.gateway_enabled, True) nt.assert_equal(self.notebook.gateway_config.url, TestGateway.mock_gateway_url) nt.assert_equal(self.notebook.gateway_config.http_user, TestGateway.mock_http_user) nt.assert_equal(self.notebook.gateway_config.connect_timeout, self.notebook.gateway_config.connect_timeout) nt.assert_equal(self.notebook.gateway_config.connect_timeout, 44.4) def test_gateway_class_mappings(self): # Ensure appropriate class mappings are in place. nt.assert_equal(self.notebook.kernel_manager_class.__name__, 'GatewayKernelManager') nt.assert_equal(self.notebook.session_manager_class.__name__, 'GatewaySessionManager') nt.assert_equal(self.notebook.kernel_spec_manager_class.__name__, 'GatewayKernelSpecManager') def test_gateway_get_kernelspecs(self): # Validate that kernelspecs come from gateway. with mocked_gateway: response = self.request('GET', '/api/kernelspecs') self.assertEqual(response.status_code, 200) content = json.loads(response.content.decode('utf-8'), encoding='utf-8') kspecs = content.get('kernelspecs') self.assertEqual(len(kspecs), 2) self.assertEqual(kspecs.get('kspec_bar').get('name'), 'kspec_bar') def test_gateway_get_named_kernelspec(self): # Validate that a specific kernelspec can be retrieved from gateway. with mocked_gateway: response = self.request('GET', '/api/kernelspecs/kspec_foo') self.assertEqual(response.status_code, 200) kspec_foo = json.loads(response.content.decode('utf-8'), encoding='utf-8') self.assertEqual(kspec_foo.get('name'), 'kspec_foo') response = self.request('GET', '/api/kernelspecs/no_such_spec') self.assertEqual(response.status_code, 404) def test_gateway_session_lifecycle(self): # Validate session lifecycle functions; create and delete. # create session_id, kernel_id = self.create_session('kspec_foo') # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # interrupt self.interrupt_kernel(kernel_id) # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # restart self.restart_kernel(kernel_id) # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # delete self.delete_session(session_id) self.assertFalse(self.is_kernel_running(kernel_id)) def test_gateway_kernel_lifecycle(self): # Validate kernel lifecycle functions; create, interrupt, restart and delete. # create kernel_id = self.create_kernel('kspec_bar') # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # interrupt self.interrupt_kernel(kernel_id) # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # restart self.restart_kernel(kernel_id) # ensure kernel still considered running self.assertTrue(self.is_kernel_running(kernel_id)) # delete self.delete_kernel(kernel_id) self.assertFalse(self.is_kernel_running(kernel_id)) def create_session(self, kernel_name): """Creates a session for a kernel. The session is created against the notebook server which then uses the gateway for kernel management. """ with mocked_gateway: nb_path = os.path.join(self.notebook_dir, 'testgw.ipynb') kwargs = dict() kwargs['json'] = {'path': nb_path, 'type': 'notebook', 'kernel': {'name': kernel_name}} # add a KERNEL_ value to the current env and we'll ensure that that value exists in the mocked method os.environ['KERNEL_KSPEC_NAME'] = kernel_name # Create the kernel... (also tests get_kernel) response = self.request('POST', '/api/sessions', **kwargs) self.assertEqual(response.status_code, 201) model = json.loads(response.content.decode('utf-8'), encoding='utf-8') self.assertEqual(model.get('path'), nb_path) kernel_id = model.get('kernel').get('id') # ensure its in the running_kernels and name matches. running_kernel = running_kernels.get(kernel_id) self.assertEqual(kernel_id, running_kernel.get('id')) self.assertEqual(model.get('kernel').get('name'), running_kernel.get('name')) session_id = model.get('id') # restore env os.environ.pop('KERNEL_KSPEC_NAME') return session_id, kernel_id def delete_session(self, session_id): """Deletes a session corresponding to the given session id. """ with mocked_gateway: # Delete the session (and kernel) response = self.request('DELETE', '/api/sessions/' + session_id) self.assertEqual(response.status_code, 204) self.assertEqual(response.reason, 'No Content') def is_kernel_running(self, kernel_id): """Issues request to get the set of running kernels """ with mocked_gateway: # Get list of running kernels response = self.request('GET', '/api/kernels') self.assertEqual(response.status_code, 200) kernels = json.loads(response.content.decode('utf-8'), encoding='utf-8') self.assertEqual(len(kernels), len(running_kernels)) for model in kernels: if model.get('id') == kernel_id: return True return False def create_kernel(self, kernel_name): """Issues request to restart the given kernel """ with mocked_gateway: kwargs = dict() kwargs['json'] = {'name': kernel_name} # add a KERNEL_ value to the current env and we'll ensure that that value exists in the mocked method os.environ['KERNEL_KSPEC_NAME'] = kernel_name response = self.request('POST', '/api/kernels', **kwargs) self.assertEqual(response.status_code, 201) model = json.loads(response.content.decode('utf-8'), encoding='utf-8') kernel_id = model.get('id') # ensure its in the running_kernels and name matches. running_kernel = running_kernels.get(kernel_id) self.assertEqual(kernel_id, running_kernel.get('id')) self.assertEqual(model.get('name'), kernel_name) # restore env os.environ.pop('KERNEL_KSPEC_NAME') return kernel_id def interrupt_kernel(self, kernel_id): """Issues request to interrupt the given kernel """ with mocked_gateway: response = self.request('POST', '/api/kernels/' + kernel_id + '/interrupt') self.assertEqual(response.status_code, 204) self.assertEqual(response.reason, 'No Content') def restart_kernel(self, kernel_id): """Issues request to restart the given kernel """ with mocked_gateway: response = self.request('POST', '/api/kernels/' + kernel_id + '/restart') self.assertEqual(response.status_code, 200) model = json.loads(response.content.decode('utf-8'), encoding='utf-8') restarted_kernel_id = model.get('id') # ensure its in the running_kernels and name matches. running_kernel = running_kernels.get(restarted_kernel_id) self.assertEqual(restarted_kernel_id, running_kernel.get('id')) self.assertEqual(model.get('name'), running_kernel.get('name')) def delete_kernel(self, kernel_id): """Deletes kernel corresponding to the given kernel id. """ with mocked_gateway: # Delete the session (and kernel) response = self.request('DELETE', '/api/kernels/' + kernel_id) self.assertEqual(response.status_code, 204) self.assertEqual(response.reason, 'No Content')