""" Various common utilities for testing. """ import atexit import multiprocessing import os import pathlib import queue import sys try: import pytest except ImportError: pytest = None TEST_PATH = pathlib.Path(__file__).parents[0].resolve() BUILD_PATH = TEST_PATH / '..' / 'build' class PyodideInited: def __call__(self, driver): inited = driver.execute_script( "return window.pyodide && window.pyodide.runPython") return inited is not None class PackageLoaded: def __call__(self, driver): inited = driver.execute_script( "return window.done") return bool(inited) class SeleniumWrapper: def __init__(self): from selenium.webdriver.support.wait import WebDriverWait driver = self.get_driver() wait = WebDriverWait(driver, timeout=20) if not (BUILD_PATH / 'test.html').exists(): # selenium does not expose HTTP response codes raise ValueError(f"{(BUILD_PATH / 'test.html').resolve()} " f"does not exist!") driver.get(f'http://127.0.0.1:{PORT}/test.html') wait.until(PyodideInited()) self.wait = wait self.driver = driver @property def logs(self): logs = self.driver.execute_script("return window.logs") return '\n'.join(str(x) for x in logs) def clean_logs(self): self.driver.execute_script("window.logs = []") def run(self, code): return self.run_js( 'return pyodide.runPython({!r})'.format(code)) def run_js(self, code): catch = f""" Error.stackTraceLimit = Infinity; try {{ {code} }} catch (error) {{ console.log(error.stack); throw error; }}""" return self.driver.execute_script(catch) def load_package(self, packages): self.run_js( 'window.done = false\n' + 'pyodide.loadPackage({!r})'.format(packages) + '.then(function() { window.done = true; })') self.wait.until(PackageLoaded()) @property def urls(self): for handle in self.driver.window_handles: self.driver.switch_to.window(handle) yield self.driver.current_url class FirefoxWrapper(SeleniumWrapper): browser = 'firefox' def get_driver(self): from selenium.webdriver import Firefox from selenium.webdriver.firefox.options import Options from selenium.common.exceptions import JavascriptException options = Options() options.add_argument('-headless') self.JavascriptException = JavascriptException return Firefox( executable_path='geckodriver', firefox_options=options) class ChromeWrapper(SeleniumWrapper): browser = 'chrome' def get_driver(self): from selenium.webdriver import Chrome from selenium.webdriver.chrome.options import Options from selenium.common.exceptions import WebDriverException options = Options() options.add_argument('--headless') self.JavascriptException = WebDriverException return Chrome(chrome_options=options) if pytest is not None: @pytest.fixture(params=['firefox', 'chrome']) def selenium_standalone(request): if request.param == 'firefox': cls = FirefoxWrapper elif request.param == 'chrome': cls = ChromeWrapper selenium = cls() try: yield selenium finally: print(selenium.logs) selenium.driver.quit() @pytest.fixture(params=['firefox', 'chrome'], scope='module') def _selenium_cached(request): # Cached selenium instance. This is a copy-paste of # selenium_standalone to avoid fixture scope issues if request.param == 'firefox': cls = FirefoxWrapper elif request.param == 'chrome': cls = ChromeWrapper selenium = cls() try: yield selenium finally: selenium.driver.quit() @pytest.fixture def selenium(_selenium_cached): # selenium instance cached at the module level try: _selenium_cached.clean_logs() yield _selenium_cached finally: print(_selenium_cached.logs) PORT = 0 def spawn_web_server(): global PORT print("Spawning webserver...") q = multiprocessing.Queue() p = multiprocessing.Process(target=run_web_server, args=(q,)) def shutdown_webserver(): q.put("TERMINATE") p.join() atexit.register(shutdown_webserver) p.start() PORT = q.get() def run_web_server(q): import http.server import socketserver print("Running webserver...") os.chdir(BUILD_PATH) Handler = http.server.SimpleHTTPRequestHandler Handler.extensions_map['.wasm'] = 'application/wasm' def dummy_log(*args, **kwargs): pass Handler.log_message = dummy_log with socketserver.TCPServer(("", 0), Handler) as httpd: host, port = httpd.server_address print("serving at port", port) q.put(port) def service_actions(): try: if q.get(False) == "TERMINATE": sys.exit(0) httpd.shutdown() except queue.Empty: pass httpd.service_actions = service_actions httpd.serve_forever() if multiprocessing.current_process().name == 'MainProcess': spawn_web_server()