def test_ping_upload_worker_single_process(safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
pings_dir = PingUploadWorker.storage_directory()
pings_dir.mkdir()
for i in range(100):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
# Fire off two PingUploadWorker processing tasks at the same time. If
# working correctly, p1 should finish entirely before p2 starts.
# If these actually run in parallel, one or the other will try to send
# deleted queued ping files and fail.
p1 = PingUploadWorker._process()
p2 = PingUploadWorker._process()
p1.wait()
assert p1.returncode == 0
p2.wait()
assert p2.returncode == 0
assert 100 == len(safe_httpserver.requests)
def test_ping_upload_worker_single_process(safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
# This test requires us to write a few files in the pending pings
# directory, to which language bindings have theoretically no access.
# Manually create the path to that directory, at the risk of breaking
# the test in the future, if that changes in the Rust code.
pings_dir = Glean._data_dir / "pending_pings"
pings_dir.mkdir()
for _ in range(10):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
# Fire off two PingUploadWorker processing tasks at the same time. If
# working correctly, p1 should finish entirely before p2 starts.
# If these actually run in parallel, one or the other will try to send
# deleted queued ping files and fail.
p1 = PingUploadWorker._process()
p2 = PingUploadWorker._process()
p1.wait()
assert p1.returncode == 0
p2.wait()
assert p2.returncode == 0
assert 10 == len(safe_httpserver.requests)
def test_tempdir_is_cleared_multiprocess(safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
# This test requires us to write a few files in the pending pings
# directory, to which language bindings have theoretically no access.
# Manually create the path to that directory, at the risk of breaking
# the test in the future, if that changes in the Rust code.
pings_dir = Glean._data_dir / "pending_pings"
pings_dir.mkdir()
for _ in range(10):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
# Make sure that resetting while the PingUploadWorker is running doesn't
# delete the directory out from under the PingUploadWorker.
p1 = PingUploadWorker._process()
Glean._reset()
p1.wait()
assert p1.returncode == 0
assert 10 == len(safe_httpserver.requests)
def test_ping_upload_worker_single_process(safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
# This test requires us to write a few files in the pending pings
# directory, to which language bindings have theoretically no access.
# Manually create the path to that directory, at the risk of breaking
# the test in the future, if that changes in the Rust code.
pings_dir = Glean._data_dir / "pending_pings"
pings_dir.mkdir()
for _ in range(5):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
# Fire off the first PingUploaderWorker process to handle the existing
# pings. Then, in parallel, write more pings and fire off "new"
# PingUploadWorker processes (some of which will be no-ops and just keeping
# the existing worker running).
p1 = PingUploadWorker._process()
processes = []
for _ in range(5):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
processes.append(PingUploadWorker._process())
p1.wait()
assert p1.returncode == 0
for p in processes:
p.wait()
assert p.returncode == 0
assert 10 == len(safe_httpserver.requests)
def test_tempdir_is_cleared_multiprocess(safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
pings_dir = PingUploadWorker.storage_directory()
pings_dir.mkdir()
for i in range(100):
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
# Make sure that resetting while the PingUploadWorker is running doesn't
# delete the directory out from under the PingUploadWorker.
p1 = PingUploadWorker._process()
Glean._reset()
p1.wait()
assert p1.returncode == 0
assert 100 == len(safe_httpserver.requests)
def test_dont_allow_multiprocessing(monkeypatch, safe_httpserver):
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
Glean._configuration._allow_multiprocessing = False
# Monkey-patch the multiprocessing API to be broken so we can assert it isn't used
def broken_process(*args, **kwargs):
assert False, "shouldn't be called"
monkeypatch.setattr(subprocess, "Popen", broken_process)
custom_ping = PingType(
name="store1", include_client_id=True, send_if_empty=True, reason_codes=[]
)
custom_ping.submit()
process = PingUploadWorker._process()
process.wait()
assert process.returncode == 0
assert 1 == len(safe_httpserver.requests)
def test_log_on_success(safe_httpserver, capfd):
# We can't use caplog to catch log messages from the subprocess, but we can
# use capsys to catch its stderr.
safe_httpserver.serve_content(b"", code=200)
Glean._configuration.server_endpoint = safe_httpserver.url
Glean._simple_log_level = logging.INFO
pings_dir = Glean._data_dir / "pending_pings"
pings_dir.mkdir()
with (pings_dir / str(uuid.uuid4())).open("wb") as fd:
fd.write(b"/data/path/\n")
fd.write(b"{}\n")
p1 = PingUploadWorker._process()
p1.wait()
assert p1.returncode == 0
assert 1 == len(safe_httpserver.requests)
captured = capfd.readouterr()
assert "successfully sent 200" in str(captured.err)