"""Test IO capturing functionality""" import io import os import subprocess import sys import threading import time import warnings from concurrent.futures import Future, ThreadPoolExecutor from unittest import mock import pytest import zmq from jupyter_client.session import Session from ipykernel.iostream import MASTER, BackgroundSocket, IOPubThread, OutStream @pytest.fixture def ctx(): ctx = zmq.Context() yield ctx ctx.destroy() @pytest.fixture def iopub_thread(ctx): with ctx.socket(zmq.PUB) as pub: thread = IOPubThread(pub) thread.start() yield thread thread.stop() thread.close() def test_io_api(iopub_thread): """Test that wrapped stdout has the same API as a normal TextIO object""" session = Session() stream = OutStream(session, iopub_thread, "stdout") assert stream.errors is None assert not stream.isatty() with pytest.raises(io.UnsupportedOperation): stream.detach() with pytest.raises(io.UnsupportedOperation): next(stream) with pytest.raises(io.UnsupportedOperation): stream.read() with pytest.raises(io.UnsupportedOperation): stream.readline() with pytest.raises(io.UnsupportedOperation): stream.seek(0) with pytest.raises(io.UnsupportedOperation): stream.tell() with pytest.raises(TypeError): stream.write(b"") # type:ignore def test_io_isatty(iopub_thread): session = Session() stream = OutStream(session, iopub_thread, "stdout", isatty=True) assert stream.isatty() def test_io_thread(iopub_thread): thread = iopub_thread thread._setup_pipe_in() msg = [thread._pipe_uuid, b"a"] thread._handle_pipe_msg(msg) ctx1, pipe = thread._setup_pipe_out() pipe.close() thread._pipe_in.close() thread._check_mp_mode = lambda: MASTER thread._really_send([b"hi"]) ctx1.destroy() thread.close() thread.close() thread._really_send(None) def test_background_socket(iopub_thread): sock = BackgroundSocket(iopub_thread) assert sock.__class__ == BackgroundSocket with warnings.catch_warnings(): warnings.simplefilter("ignore", DeprecationWarning) sock.linger = 101 assert iopub_thread.socket.linger == 101 assert sock.io_thread == iopub_thread sock.send(b"hi") def test_outstream(iopub_thread): session = Session() pub = iopub_thread.socket with warnings.catch_warnings(): warnings.simplefilter("ignore", DeprecationWarning) stream = OutStream(session, pub, "stdout") stream.close() stream = OutStream(session, iopub_thread, "stdout", pipe=object()) stream.close() stream = OutStream(session, iopub_thread, "stdout", watchfd=False) stream.close() stream = OutStream(session, iopub_thread, "stdout", isatty=True, echo=io.StringIO()) with stream: with pytest.raises(io.UnsupportedOperation): stream.fileno() stream._watch_pipe_fd() stream.flush() stream.write("hi") stream.writelines(["ab", "cd"]) assert stream.writable() async def test_event_pipe_gc(iopub_thread): session = Session(key=b'abc') stream = OutStream( session, iopub_thread, "stdout", isatty=True, watchfd=False, ) save_stdout = sys.stdout assert iopub_thread._event_pipes == {} with stream, mock.patch.object(sys, "stdout", stream), ThreadPoolExecutor(1) as pool: pool.submit(print, "x").result() pool_thread = pool.submit(threading.current_thread).result() assert list(iopub_thread._event_pipes) == [pool_thread] # run gc once in the iopub thread f: Future = Future() async def run_gc(): try: await iopub_thread._event_pipe_gc() except Exception as e: f.set_exception(e) else: f.set_result(None) iopub_thread.io_loop.add_callback(run_gc) # wait for call to finish in iopub thread f.result() assert iopub_thread._event_pipes == {} def subprocess_test_echo_watch(): # handshake Pub subscription session = Session(key=b'abc') # use PUSH socket to avoid subscription issues with zmq.Context() as ctx, ctx.socket(zmq.PUSH) as pub: pub.connect(os.environ["IOPUB_URL"]) iopub_thread = IOPubThread(pub) iopub_thread.start() stdout_fd = sys.stdout.fileno() sys.stdout.flush() stream = OutStream( session, iopub_thread, "stdout", isatty=True, echo=sys.stdout, watchfd="force", ) save_stdout = sys.stdout with stream, mock.patch.object(sys, "stdout", stream): # write to low-level FD os.write(stdout_fd, b"fd\n") # print (writes to stream) print("print\n", end="") sys.stdout.flush() # write to unwrapped __stdout__ (should also go to original FD) sys.__stdout__.write("__stdout__\n") sys.__stdout__.flush() # write to original sys.stdout (should be the same as __stdout__) save_stdout.write("stdout\n") save_stdout.flush() # is there another way to flush on the FD? fd_file = os.fdopen(stdout_fd, "w") fd_file.flush() # we don't have a sync flush on _reading_ from the watched pipe time.sleep(1) stream.flush() iopub_thread.stop() iopub_thread.close() @pytest.mark.skipif(sys.platform.startswith("win"), reason="Windows") def test_echo_watch(ctx): """Test echo on underlying FD while capturing the same FD Test runs in a subprocess to avoid messing with pytest output capturing. """ s = ctx.socket(zmq.PULL) port = s.bind_to_random_port("tcp://127.0.0.1") url = f"tcp://127.0.0.1:{port}" session = Session(key=b'abc') messages = [] stdout_chunks = [] with s: env = dict(os.environ) env["IOPUB_URL"] = url env["PYTHONUNBUFFERED"] = "1" env.pop("PYTEST_CURRENT_TEST", None) p = subprocess.run( [ sys.executable, "-c", f"import {__name__}; {__name__}.subprocess_test_echo_watch()", ], env=env, capture_output=True, text=True, timeout=10, ) print(f"{p.stdout=}") print(f"{p.stderr}=", file=sys.stderr) assert p.returncode == 0 while s.poll(timeout=100): ident, msg = session.recv(s) assert msg is not None # for type narrowing if msg["header"]["msg_type"] == "stream" and msg["content"]["name"] == "stdout": stdout_chunks.append(msg["content"]["text"]) # check outputs # use sets of lines to ignore ordering issues with # async flush and watchfd thread # Check the stream output forwarded over zmq zmq_stdout = "".join(stdout_chunks) assert set(zmq_stdout.strip().splitlines()) == { "fd", "print", "stdout", "__stdout__", } # Check what was written to the process stdout (kernel terminal) # just check that each output source went to the terminal assert set(p.stdout.strip().splitlines()) == { "fd", "print", "stdout", "__stdout__", }