from __future__ import print_function import io import os import re import stat import sys import zipfile from textwrap import dedent, fill import six from click.testing import CliRunner from humanize import naturalsize from twisted.internet import endpoints, reactor from twisted.internet.defer import gatherResults, inlineCallbacks, returnValue from twisted.internet.error import ConnectionRefusedError from twisted.internet.utils import getProcessOutputAndValue from twisted.python import log, procutils from twisted.trial import unittest from zope.interface import implementer import mock from .. import __version__ from .._interfaces import ITorManager from ..cli import cli, cmd_receive, cmd_send, welcome from ..errors import (ServerConnectionError, TransferError, UnsendableFileError, WelcomeError, WrongPasswordError) from .common import ServerBase, config def build_offer(args): s = cmd_send.Sender(args, None) return s._build_offer() class OfferData(unittest.TestCase): def setUp(self): self._things_to_delete = [] self.cfg = cfg = config("send") cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() def tearDown(self): for fn in self._things_to_delete: if os.path.exists(fn): os.unlink(fn) del self.cfg def test_text(self): self.cfg.text = message = "blah blah blah ponies" d, fd_to_send = build_offer(self.cfg) self.assertIn("message", d) self.assertNotIn("file", d) self.assertNotIn("directory", d) self.assertEqual(d["message"], message) self.assertEqual(fd_to_send, None) def test_file(self): self.cfg.what = filename = "my file" message = b"yay ponies\n" send_dir = self.mktemp() os.mkdir(send_dir) abs_filename = os.path.join(send_dir, filename) with open(abs_filename, "wb") as f: f.write(message) self.cfg.cwd = send_dir d, fd_to_send = build_offer(self.cfg) self.assertNotIn("message", d) self.assertIn("file", d) self.assertNotIn("directory", d) self.assertEqual(d["file"]["filesize"], len(message)) self.assertEqual(d["file"]["filename"], filename) self.assertEqual(fd_to_send.tell(), 0) self.assertEqual(fd_to_send.read(), message) def _create_broken_symlink(self): if not hasattr(os, 'symlink'): raise unittest.SkipTest("host OS does not support symlinks") parent_dir = self.mktemp() os.mkdir(parent_dir) send_dir = "dirname" os.mkdir(os.path.join(parent_dir, send_dir)) os.symlink('/non/existent/file', os.path.join(parent_dir, send_dir, 'linky')) send_dir_arg = send_dir self.cfg.what = send_dir_arg self.cfg.cwd = parent_dir def test_broken_symlink_raises_err(self): self._create_broken_symlink() self.cfg.ignore_unsendable_files = False e = self.assertRaises(UnsendableFileError, build_offer, self.cfg) # On english distributions of Linux, this will be # "linky: No such file or directory", but the error may be # different on Windows and other locales and/or Unix variants, so # we'll just assert the part we know about. self.assertIn("linky: ", str(e)) def test_broken_symlink_is_ignored(self): self._create_broken_symlink() self.cfg.ignore_unsendable_files = True d, fd_to_send = build_offer(self.cfg) self.assertIn('(ignoring error)', self.cfg.stderr.getvalue()) self.assertEqual(d['directory']['numfiles'], 0) self.assertEqual(d['directory']['numbytes'], 0) def test_missing_file(self): self.cfg.what = filename = "missing" send_dir = self.mktemp() os.mkdir(send_dir) self.cfg.cwd = send_dir e = self.assertRaises(TransferError, build_offer, self.cfg) self.assertEqual( str(e), "Cannot send: no file/directory named '%s'" % filename) def _do_test_directory(self, addslash): parent_dir = self.mktemp() os.mkdir(parent_dir) send_dir = "dirname" os.mkdir(os.path.join(parent_dir, send_dir)) ponies = [str(i) for i in range(5)] for p in ponies: with open(os.path.join(parent_dir, send_dir, p), "wb") as f: f.write(("%s ponies\n" % p).encode("ascii")) send_dir_arg = send_dir if addslash: send_dir_arg += os.sep self.cfg.what = send_dir_arg self.cfg.cwd = parent_dir d, fd_to_send = build_offer(self.cfg) self.assertNotIn("message", d) self.assertNotIn("file", d) self.assertIn("directory", d) self.assertEqual(d["directory"]["dirname"], send_dir) self.assertEqual(d["directory"]["mode"], "zipfile/deflated") self.assertEqual(d["directory"]["numfiles"], 5) self.assertIn("numbytes", d["directory"]) self.assertIsInstance(d["directory"]["numbytes"], six.integer_types) self.assertEqual(fd_to_send.tell(), 0) zdata = fd_to_send.read() self.assertEqual(len(zdata), d["directory"]["zipsize"]) fd_to_send.seek(0, 0) with zipfile.ZipFile(fd_to_send, "r", zipfile.ZIP_DEFLATED) as zf: zipnames = zf.namelist() self.assertEqual(list(sorted(ponies)), list(sorted(zipnames))) for name in zipnames: contents = zf.open(name, "r").read() self.assertEqual(("%s ponies\n" % name).encode("ascii"), contents) def test_directory(self): return self._do_test_directory(addslash=False) def test_directory_addslash(self): return self._do_test_directory(addslash=True) def test_unknown(self): self.cfg.what = filename = "unknown" send_dir = self.mktemp() os.mkdir(send_dir) abs_filename = os.path.abspath(os.path.join(send_dir, filename)) self.cfg.cwd = send_dir try: os.mkfifo(abs_filename) except AttributeError: raise unittest.SkipTest("is mkfifo supported on this platform?") # Delete the named pipe for the sake of users who might run "pip # wheel ." in this directory later. That command wants to copy # everything into a tempdir before building a wheel, and the # shutil.copy_tree() is uses can't handle the named pipe. self._things_to_delete.append(abs_filename) self.assertFalse(os.path.isfile(abs_filename)) self.assertFalse(os.path.isdir(abs_filename)) e = self.assertRaises(TypeError, build_offer, self.cfg) self.assertEqual( str(e), "'%s' is neither file nor directory" % filename) def test_symlink(self): if not hasattr(os, 'symlink'): raise unittest.SkipTest("host OS does not support symlinks") # build A/B1 -> B2 (==A/B2), and A/B2/C.txt parent_dir = self.mktemp() os.mkdir(parent_dir) os.mkdir(os.path.join(parent_dir, "B2")) with open(os.path.join(parent_dir, "B2", "C.txt"), "wb") as f: f.write(b"success") os.symlink("B2", os.path.join(parent_dir, "B1")) # now send "B1/C.txt" from A, and it should get the right file self.cfg.cwd = parent_dir self.cfg.what = os.path.join("B1", "C.txt") d, fd_to_send = build_offer(self.cfg) self.assertEqual(d["file"]["filename"], "C.txt") self.assertEqual(fd_to_send.read(), b"success") def test_symlink_collapse(self): if not hasattr(os, 'symlink'): raise unittest.SkipTest("host OS does not support symlinks") # build A/B1, A/B1/D.txt # A/B2/C2, A/B2/D.txt # symlink A/B1/C1 -> A/B2/C2 parent_dir = self.mktemp() os.mkdir(parent_dir) os.mkdir(os.path.join(parent_dir, "B1")) with open(os.path.join(parent_dir, "B1", "D.txt"), "wb") as f: f.write(b"fail") os.mkdir(os.path.join(parent_dir, "B2")) os.mkdir(os.path.join(parent_dir, "B2", "C2")) with open(os.path.join(parent_dir, "B2", "D.txt"), "wb") as f: f.write(b"success") os.symlink( os.path.abspath(os.path.join(parent_dir, "B2", "C2")), os.path.join(parent_dir, "B1", "C1")) # Now send "B1/C1/../D.txt" from A. The correct traversal will be: # * start: A # * B1: A/B1 # * C1: follow symlink to A/B2/C2 # * ..: climb to A/B2 # * D.txt: open A/B2/D.txt, which contains "success" # If the code mistakenly uses normpath(), it would do: # * normpath turns B1/C1/../D.txt into B1/D.txt # * start: A # * B1: A/B1 # * D.txt: open A/B1/D.txt , which contains "fail" self.cfg.cwd = parent_dir self.cfg.what = os.path.join("B1", "C1", os.pardir, "D.txt") d, fd_to_send = build_offer(self.cfg) self.assertEqual(d["file"]["filename"], "D.txt") self.assertEqual(fd_to_send.read(), b"success") if os.name == "nt": test_symlink_collapse.todo = "host OS has broken os.path.realpath()" # ntpath.py's realpath() is built out of normpath(), and does not # follow symlinks properly, so this test always fails. "wormhole send # PATH" on windows will do the wrong thing. See # https://bugs.python.org/issue9949" for details. I'm making this a # TODO instead of a SKIP because 1: this causes an observable # misbehavior (albeit in rare circumstances), 2: it probably used to # work (sometimes, but not in #251). See cmd_send.py for more notes. class LocaleFinder: def __init__(self): self._run_once = False @inlineCallbacks def find_utf8_locale(self): if sys.platform == "win32": returnValue("en_US.UTF-8") if self._run_once: returnValue(self._best_locale) self._best_locale = yield self._find_utf8_locale() self._run_once = True returnValue(self._best_locale) @inlineCallbacks def _find_utf8_locale(self): # Click really wants to be running under a unicode-capable locale, # especially on python3. macOS has en-US.UTF-8 but not C.UTF-8, and # most linux boxes have C.UTF-8 but not en-US.UTF-8 . For tests, # figure out which one is present and use that. For runtime, it's a # mess, as really the user must take responsibility for setting their # locale properly. I'm thinking of abandoning Click and going back to # twisted.python.usage to avoid this problem in the future. (out, err, rc) = yield getProcessOutputAndValue("locale", ["-a"]) if rc != 0: log.msg("error running 'locale -a', rc=%s" % (rc, )) log.msg("stderr: %s" % (err, )) returnValue(None) out = out.decode("utf-8") # make sure we get a string utf8_locales = {} for locale in out.splitlines(): locale = locale.strip() if locale.lower().endswith((".utf-8", ".utf8")): utf8_locales[locale.lower()] = locale for wanted in ["C.utf8", "C.UTF-8", "en_US.utf8", "en_US.UTF-8"]: if wanted.lower() in utf8_locales: returnValue(utf8_locales[wanted.lower()]) if utf8_locales: returnValue(list(utf8_locales.values())[0]) returnValue(None) locale_finder = LocaleFinder() class ScriptsBase: def find_executable(self): # to make sure we're running the right executable (in a virtualenv), # we require that our "wormhole" lives in the same directory as our # "python" locations = procutils.which("wormhole") if not locations: raise unittest.SkipTest("unable to find 'wormhole' in $PATH") wormhole = locations[0] if (os.path.dirname(os.path.abspath(wormhole)) != os.path.dirname( sys.executable)): log.msg("locations: %s" % (locations, )) log.msg("sys.executable: %s" % (sys.executable, )) raise unittest.SkipTest( "found the wrong 'wormhole' in $PATH: %s %s" % (wormhole, sys.executable)) return wormhole @inlineCallbacks def is_runnable(self): # One property of Versioneer is that many changes to the source tree # (making a commit, dirtying a previously-clean tree) will change the # version string. Entrypoint scripts frequently insist upon importing # a library version that matches the script version (whatever was # reported when 'pip install' was run), and throw a # DistributionNotFound error when they don't match. This is really # annoying in a workspace created with "pip install -e .", as you # must re-run pip after each commit. # So let's report just one error in this case (from test_version), # and skip the other tests that we know will fail. # Setting LANG/LC_ALL to a unicode-capable locale is necessary to # convince Click to not complain about a forced-ascii locale. My # apologies to folks who want to run tests on a machine that doesn't # have the C.UTF-8 locale installed. locale = yield locale_finder.find_utf8_locale() if not locale: raise unittest.SkipTest("unable to find UTF-8 locale") locale_env = dict(LC_ALL=locale, LANG=locale) wormhole = self.find_executable() res = yield getProcessOutputAndValue( wormhole, ["--version"], env=locale_env) out, err, rc = res if rc != 0: log.msg("wormhole not runnable in this tree:") log.msg("out", out) log.msg("err", err) log.msg("rc", rc) raise unittest.SkipTest("wormhole is not runnable in this tree") returnValue(locale_env) class ScriptVersion(ServerBase, ScriptsBase, unittest.TestCase): # we need Twisted to run the server, but we run the sender and receiver # with deferToThread() @inlineCallbacks def test_version(self): # "wormhole" must be on the path, so e.g. "pip install -e ." in a # virtualenv. This guards against an environment where the tests # below might run the wrong executable. self.maxDiff = None wormhole = self.find_executable() # we must pass on the environment so that "something" doesn't # get sad about UTF8 vs. ascii encodings out, err, rc = yield getProcessOutputAndValue( wormhole, ["--version"], env=os.environ) err = err.decode("utf-8") if "DistributionNotFound" in err: log.msg("stderr was %s" % err) last = err.strip().split("\n")[-1] self.fail("wormhole not runnable: %s" % last) ver = out.decode("utf-8") or err self.failUnlessEqual(ver.strip(), "magic-wormhole {}".format(__version__)) self.failUnlessEqual(rc, 0) @implementer(ITorManager) class FakeTor: # use normal endpoints, but record the fact that we were asked def __init__(self): self.endpoints = [] def stream_via(self, host, port, tls=False): self.endpoints.append((host, port, tls)) return endpoints.HostnameEndpoint(reactor, host, port) def strip_deprecations(stderr, NL): lines = [line for line in stderr.split(NL) if not ("Python 2 is no longer supported" in line or "from cryptography import utils" in line or "support will be dropped in the next release of cryptography" in line ) ] return NL.join(lines) class PregeneratedCode(ServerBase, ScriptsBase, unittest.TestCase): # we need Twisted to run the server, but we run the sender and receiver # with deferToThread() @inlineCallbacks def setUp(self): self._env = yield self.is_runnable() yield ServerBase.setUp(self) @inlineCallbacks def _do_test(self, as_subprocess=False, mode="text", addslash=False, override_filename=False, fake_tor=False, overwrite=False, mock_accept=False, verify=False): assert mode in ("text", "file", "empty-file", "directory", "slow-text", "slow-sender-text") if fake_tor: assert not as_subprocess send_cfg = config("send") recv_cfg = config("receive") message = "blah blah blah ponies" for cfg in [send_cfg, recv_cfg]: cfg.hide_progress = True cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.listen = True cfg.code = u"1-abc" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() cfg.verify = verify send_dir = self.mktemp() os.mkdir(send_dir) receive_dir = self.mktemp() os.mkdir(receive_dir) if mode in ("text", "slow-text", "slow-sender-text"): send_cfg.text = message elif mode in ("file", "empty-file"): if mode == "empty-file": message = "" send_filename = u"testfil\u00EB" # e-with-diaeresis with open(os.path.join(send_dir, send_filename), "w") as f: f.write(message) send_cfg.what = send_filename receive_filename = send_filename recv_cfg.accept_file = False if mock_accept else True if override_filename: recv_cfg.output_file = receive_filename = u"outfile" if overwrite: recv_cfg.output_file = receive_filename existing_file = os.path.join(receive_dir, receive_filename) with open(existing_file, 'w') as f: f.write('pls overwrite me') elif mode == "directory": # $send_dir/ # $send_dir/middle/ # $send_dir/middle/$dirname/ # $send_dir/middle/$dirname/[12345] # cd $send_dir && wormhole send middle/$dirname # cd $receive_dir && wormhole receive # expect: $receive_dir/$dirname/[12345] send_dirname = u"testdir" def message(i): return "test message %d\n" % i os.mkdir(os.path.join(send_dir, u"middle")) source_dir = os.path.join(send_dir, u"middle", send_dirname) os.mkdir(source_dir) modes = {} for i in range(5): path = os.path.join(source_dir, str(i)) with open(path, "w") as f: f.write(message(i)) if i == 3: os.chmod(path, 0o755) modes[i] = stat.S_IMODE(os.stat(path).st_mode) send_dirname_arg = os.path.join(u"middle", send_dirname) if addslash: send_dirname_arg += os.sep send_cfg.what = send_dirname_arg receive_dirname = send_dirname recv_cfg.accept_file = False if mock_accept else True if override_filename: recv_cfg.output_file = receive_dirname = u"outdir" if overwrite: recv_cfg.output_file = receive_dirname os.mkdir(os.path.join(receive_dir, receive_dirname)) if as_subprocess: wormhole_bin = self.find_executable() if send_cfg.text: content_args = ['--text', send_cfg.text] elif send_cfg.what: content_args = [send_cfg.what] # raise the rx KEY_TIMER to some large number here, to avoid # spurious test failures on hosts that are slow enough to trigger # the "Waiting for sender..." pacifier message. We can do in # not-as_subprocess, because we can directly patch the value before # running the receiver. But we can't patch across the subprocess # boundary, so we use an environment variable. env = self._env.copy() env["_MAGIC_WORMHOLE_TEST_KEY_TIMER"] = "999999" env["_MAGIC_WORMHOLE_TEST_VERIFY_TIMER"] = "999999" send_args = [ '--relay-url', self.relayurl, '--transit-helper', '', 'send', '--hide-progress', '--code', send_cfg.code, ] + content_args send_d = getProcessOutputAndValue( wormhole_bin, send_args, path=send_dir, env=env, ) recv_args = [ '--relay-url', self.relayurl, '--transit-helper', '', 'receive', '--hide-progress', '--accept-file', recv_cfg.code, ] if override_filename: recv_args.extend(['-o', receive_filename]) receive_d = getProcessOutputAndValue( wormhole_bin, recv_args, path=receive_dir, env=env, ) (send_res, receive_res) = yield gatherResults([send_d, receive_d], True) send_stdout = send_res[0].decode("utf-8") send_stderr = send_res[1].decode("utf-8") send_rc = send_res[2] receive_stdout = receive_res[0].decode("utf-8") receive_stderr = receive_res[1].decode("utf-8") receive_rc = receive_res[2] NL = os.linesep send_stderr = strip_deprecations(send_stderr, NL) receive_stderr = strip_deprecations(receive_stderr, NL) self.assertEqual((send_rc, receive_rc), (0, 0), (send_res, receive_res)) else: send_cfg.cwd = send_dir recv_cfg.cwd = receive_dir if fake_tor: send_cfg.tor = True send_cfg.transit_helper = self.transit tx_tm = FakeTor() with mock.patch( "wormhole.tor_manager.get_tor", return_value=tx_tm, ) as mtx_tm: send_d = cmd_send.send(send_cfg) recv_cfg.tor = True recv_cfg.transit_helper = self.transit rx_tm = FakeTor() with mock.patch( "wormhole.tor_manager.get_tor", return_value=rx_tm, ) as mrx_tm: receive_d = cmd_receive.receive(recv_cfg) else: KEY_TIMER = 0 if mode == "slow-sender-text" else 99999 rxw = [] with mock.patch.object(cmd_receive, "KEY_TIMER", KEY_TIMER): send_d = cmd_send.send(send_cfg) receive_d = cmd_receive.receive( recv_cfg, _debug_stash_wormhole=rxw) # we need to keep KEY_TIMER patched until the receiver # gets far enough to start the timer, which happens after # the code is set if mode == "slow-sender-text": yield rxw[0].get_unverified_key() # The sender might fail, leaving the receiver hanging, or vice # versa. Make sure we don't wait on one side exclusively VERIFY_TIMER = 0 if mode == "slow-text" else 99999 with mock.patch.object(cmd_receive, "VERIFY_TIMER", VERIFY_TIMER): with mock.patch.object(cmd_send, "VERIFY_TIMER", VERIFY_TIMER): if mock_accept or verify: with mock.patch.object( cmd_receive.six.moves, 'input', return_value='yes') as i: yield gatherResults([send_d, receive_d], True) if verify: s = i.mock_calls[0][1][0] mo = re.search(r'^Verifier (\w+)\. ok\?', s) self.assertTrue(mo, s) sender_verifier = mo.group(1) else: yield gatherResults([send_d, receive_d], True) if fake_tor: expected_endpoints = [("127.0.0.1", self.rdv_ws_port, False)] if mode in ("file", "directory"): expected_endpoints.append(("127.0.0.1", self.transitport, False)) tx_timing = mtx_tm.call_args[1]["timing"] self.assertEqual(tx_tm.endpoints, expected_endpoints) self.assertEqual( mtx_tm.mock_calls, [mock.call(reactor, False, None, timing=tx_timing)]) rx_timing = mrx_tm.call_args[1]["timing"] self.assertEqual(rx_tm.endpoints, expected_endpoints) self.assertEqual( mrx_tm.mock_calls, [mock.call(reactor, False, None, timing=rx_timing)]) send_stdout = send_cfg.stdout.getvalue() send_stderr = send_cfg.stderr.getvalue() receive_stdout = recv_cfg.stdout.getvalue() receive_stderr = recv_cfg.stderr.getvalue() # all output here comes from a StringIO, which uses \n for # newlines, even if we're on windows NL = "\n" self.maxDiff = None # show full output for assertion failures key_established = "" if mode == "slow-text": key_established = "Key established, waiting for confirmation...\n" self.assertEqual(send_stdout, "") # check sender if mode == "text" or mode == "slow-text": expected = ("Sending text message ({bytes:d} Bytes){NL}" "Wormhole code is: {code}{NL}" "On the other computer, please run:{NL}{NL}" "wormhole receive {verify}{code}{NL}{NL}" "{KE}" "text message sent{NL}").format( bytes=len(message), verify="--verify " if verify else "", code=send_cfg.code, NL=NL, KE=key_established) self.failUnlessEqual(send_stderr, expected) elif mode == "file": self.failUnlessIn(u"Sending {size:s} file named '{name}'{NL}" .format( size=naturalsize(len(message)), name=send_filename, NL=NL), send_stderr) self.failUnlessIn(u"Wormhole code is: {code}{NL}" "On the other computer, please run:{NL}{NL}" "wormhole receive {code}{NL}{NL}".format( code=send_cfg.code, NL=NL), send_stderr) self.failUnlessIn( u"File sent.. waiting for confirmation{NL}" "Confirmation received. Transfer complete.{NL}".format(NL=NL), send_stderr) elif mode == "directory": self.failUnlessIn(u"Sending directory", send_stderr) self.failUnlessIn(u"named 'testdir'", send_stderr) self.failUnlessIn(u"Wormhole code is: {code}{NL}" "On the other computer, please run:{NL}{NL}" "wormhole receive {code}{NL}{NL}".format( code=send_cfg.code, NL=NL), send_stderr) self.failUnlessIn( u"File sent.. waiting for confirmation{NL}" "Confirmation received. Transfer complete.{NL}".format(NL=NL), send_stderr) # check receiver if mode in ("text", "slow-text", "slow-sender-text"): self.assertEqual(receive_stdout, message + NL) if mode == "text": if verify: mo = re.search(r'^Verifier (\w+)\.\s*$', receive_stderr) self.assertTrue(mo, receive_stderr) receiver_verifier = mo.group(1) self.assertEqual(sender_verifier, receiver_verifier) else: self.assertEqual(receive_stderr, "") elif mode == "slow-text": self.assertEqual(receive_stderr, key_established) elif mode == "slow-sender-text": self.assertEqual(receive_stderr, "Waiting for sender...\n") elif mode == "file": self.failUnlessEqual(receive_stdout, "") self.failUnlessIn(u"Receiving file ({size:s}) into: {name}".format( size=naturalsize(len(message)), name=receive_filename), receive_stderr) self.failUnlessIn(u"Received file written to ", receive_stderr) fn = os.path.join(receive_dir, receive_filename) self.failUnless(os.path.exists(fn)) with open(fn, "r") as f: self.failUnlessEqual(f.read(), message) elif mode == "directory": self.failUnlessEqual(receive_stdout, "") want = (r"Receiving directory \(\d+ \w+\) into: {name}/" .format(name=receive_dirname)) self.failUnless( re.search(want, receive_stderr), (want, receive_stderr)) self.failUnlessIn( u"Received files written to {name}" .format(name=receive_dirname), receive_stderr) fn = os.path.join(receive_dir, receive_dirname) self.failUnless(os.path.exists(fn), fn) for i in range(5): fn = os.path.join(receive_dir, receive_dirname, str(i)) with open(fn, "r") as f: self.failUnlessEqual(f.read(), message(i)) self.failUnlessEqual(modes[i], stat.S_IMODE( os.stat(fn).st_mode)) def test_text(self): return self._do_test() def test_text_subprocess(self): return self._do_test(as_subprocess=True) def test_text_tor(self): return self._do_test(fake_tor=True) def test_text_verify(self): return self._do_test(verify=True) def test_file(self): return self._do_test(mode="file") def test_file_override(self): return self._do_test(mode="file", override_filename=True) def test_file_overwrite(self): return self._do_test(mode="file", overwrite=True) def test_file_overwrite_mock_accept(self): return self._do_test(mode="file", overwrite=True, mock_accept=True) def test_file_tor(self): return self._do_test(mode="file", fake_tor=True) def test_empty_file(self): return self._do_test(mode="empty-file") def test_directory(self): return self._do_test(mode="directory") def test_directory_addslash(self): return self._do_test(mode="directory", addslash=True) def test_directory_override(self): return self._do_test(mode="directory", override_filename=True) def test_directory_overwrite(self): return self._do_test(mode="directory", overwrite=True) def test_directory_overwrite_mock_accept(self): return self._do_test( mode="directory", overwrite=True, mock_accept=True) def test_slow_text(self): return self._do_test(mode="slow-text") def test_slow_sender_text(self): return self._do_test(mode="slow-sender-text") @inlineCallbacks def _do_test_fail(self, mode, failmode): assert mode in ("file", "directory") assert failmode in ("noclobber", "toobig") send_cfg = config("send") recv_cfg = config("receive") for cfg in [send_cfg, recv_cfg]: cfg.hide_progress = True cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.listen = False cfg.code = u"1-abc" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() send_dir = self.mktemp() os.mkdir(send_dir) receive_dir = self.mktemp() os.mkdir(receive_dir) recv_cfg.accept_file = True # don't ask for permission if mode == "file": message = "test message\n" send_cfg.what = receive_name = send_filename = "testfile" fn = os.path.join(send_dir, send_filename) with open(fn, "w") as f: f.write(message) size = os.stat(fn).st_size elif mode == "directory": # $send_dir/ # $send_dir/$dirname/ # $send_dir/$dirname/[12345] # cd $send_dir && wormhole send $dirname # cd $receive_dir && wormhole receive # expect: $receive_dir/$dirname/[12345] size = 0 send_cfg.what = receive_name = send_dirname = "testdir" os.mkdir(os.path.join(send_dir, send_dirname)) for i in range(5): path = os.path.join(send_dir, send_dirname, str(i)) with open(path, "w") as f: f.write("test message %d\n" % i) size += os.stat(path).st_size if failmode == "noclobber": PRESERVE = "don't clobber me\n" clobberable = os.path.join(receive_dir, receive_name) with open(clobberable, "w") as f: f.write(PRESERVE) send_cfg.cwd = send_dir send_d = cmd_send.send(send_cfg) recv_cfg.cwd = receive_dir receive_d = cmd_receive.receive(recv_cfg) # both sides will fail if failmode == "noclobber": free_space = 10000000 else: free_space = 0 with mock.patch( "wormhole.cli.cmd_receive.estimate_free_space", return_value=free_space): f = yield self.assertFailure(send_d, TransferError) self.assertEqual( str(f), "remote error, transfer abandoned: transfer rejected") f = yield self.assertFailure(receive_d, TransferError) self.assertEqual(str(f), "transfer rejected") send_stdout = send_cfg.stdout.getvalue() send_stderr = send_cfg.stderr.getvalue() receive_stdout = recv_cfg.stdout.getvalue() receive_stderr = recv_cfg.stderr.getvalue() # all output here comes from a StringIO, which uses \n for # newlines, even if we're on windows NL = "\n" self.maxDiff = None # show full output for assertion failures self.assertEqual(send_stdout, "") self.assertEqual(receive_stdout, "") # check sender if mode == "file": self.failUnlessIn("Sending {size:s} file named '{name}'{NL}" .format( size=naturalsize(size), name=send_filename, NL=NL), send_stderr) self.failUnlessIn("Wormhole code is: {code}{NL}" "On the other computer, please run:{NL}{NL}" "wormhole receive {code}{NL}".format( code=send_cfg.code, NL=NL), send_stderr) self.failIfIn( "File sent.. waiting for confirmation{NL}" "Confirmation received. Transfer complete.{NL}".format(NL=NL), send_stderr) elif mode == "directory": self.failUnlessIn("Sending directory", send_stderr) self.failUnlessIn("named 'testdir'", send_stderr) self.failUnlessIn("Wormhole code is: {code}{NL}" "On the other computer, please run:{NL}{NL}" "wormhole receive {code}{NL}".format( code=send_cfg.code, NL=NL), send_stderr) self.failIfIn( "File sent.. waiting for confirmation{NL}" "Confirmation received. Transfer complete.{NL}".format(NL=NL), send_stderr) # check receiver if mode == "file": self.failIfIn("Received file written to ", receive_stderr) if failmode == "noclobber": self.failUnlessIn( "Error: " "refusing to overwrite existing 'testfile'{NL}" .format(NL=NL), receive_stderr) else: self.failUnlessIn( "Error: " "insufficient free space (0B) for file ({size:d}B){NL}" .format(NL=NL, size=size), receive_stderr) elif mode == "directory": self.failIfIn( "Received files written to {name}".format(name=receive_name), receive_stderr) # want = (r"Receiving directory \(\d+ \w+\) into: {name}/" # .format(name=receive_name)) # self.failUnless(re.search(want, receive_stderr), # (want, receive_stderr)) if failmode == "noclobber": self.failUnlessIn( "Error: " "refusing to overwrite existing 'testdir'{NL}" .format(NL=NL), receive_stderr) else: self.failUnlessIn(("Error: " "insufficient free space (0B) for directory" " ({size:d}B){NL}").format( NL=NL, size=size), receive_stderr) if failmode == "noclobber": fn = os.path.join(receive_dir, receive_name) self.failUnless(os.path.exists(fn)) with open(fn, "r") as f: self.failUnlessEqual(f.read(), PRESERVE) def test_fail_file_noclobber(self): return self._do_test_fail("file", "noclobber") def test_fail_directory_noclobber(self): return self._do_test_fail("directory", "noclobber") def test_fail_file_toobig(self): return self._do_test_fail("file", "toobig") def test_fail_directory_toobig(self): return self._do_test_fail("directory", "toobig") class ZeroMode(ServerBase, unittest.TestCase): @inlineCallbacks def test_text(self): send_cfg = config("send") recv_cfg = config("receive") message = "textponies" for cfg in [send_cfg, recv_cfg]: cfg.hide_progress = True cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.listen = True cfg.zeromode = True cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() send_cfg.text = message # send_cfg.cwd = send_dir # recv_cfg.cwd = receive_dir send_d = cmd_send.send(send_cfg) receive_d = cmd_receive.receive(recv_cfg) yield gatherResults([send_d, receive_d], True) send_stdout = send_cfg.stdout.getvalue() send_stderr = send_cfg.stderr.getvalue() receive_stdout = recv_cfg.stdout.getvalue() receive_stderr = recv_cfg.stderr.getvalue() # all output here comes from a StringIO, which uses \n for # newlines, even if we're on windows NL = "\n" self.maxDiff = None # show full output for assertion failures self.assertEqual(send_stdout, "") # check sender expected = ("Sending text message ({bytes:d} Bytes){NL}" "On the other computer, please run:{NL}" "{NL}" "wormhole receive -0{NL}" "{NL}" "text message sent{NL}").format( bytes=len(message), NL=NL) self.failUnlessEqual(send_stderr, expected) # check receiver self.assertEqual(receive_stdout, message + NL) self.assertEqual(receive_stderr, "") class NotWelcome(ServerBase, unittest.TestCase): @inlineCallbacks def setUp(self): yield self._setup_relay(error="please upgrade XYZ") self.cfg = cfg = config("send") cfg.hide_progress = True cfg.listen = False cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() @inlineCallbacks def test_sender(self): self.cfg.text = "hi" self.cfg.code = u"1-abc" send_d = cmd_send.send(self.cfg) f = yield self.assertFailure(send_d, WelcomeError) self.assertEqual(str(f), "please upgrade XYZ") @inlineCallbacks def test_receiver(self): self.cfg.code = u"1-abc" receive_d = cmd_receive.receive(self.cfg) f = yield self.assertFailure(receive_d, WelcomeError) self.assertEqual(str(f), "please upgrade XYZ") class NoServer(ServerBase, unittest.TestCase): @inlineCallbacks def setUp(self): yield self._setup_relay(None) yield self._relay_server.disownServiceParent() @inlineCallbacks def test_sender(self): cfg = config("send") cfg.hide_progress = True cfg.listen = False cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() cfg.text = "hi" cfg.code = u"1-abc" send_d = cmd_send.send(cfg) e = yield self.assertFailure(send_d, ServerConnectionError) self.assertIsInstance(e.reason, ConnectionRefusedError) @inlineCallbacks def test_sender_allocation(self): cfg = config("send") cfg.hide_progress = True cfg.listen = False cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() cfg.text = "hi" send_d = cmd_send.send(cfg) e = yield self.assertFailure(send_d, ServerConnectionError) self.assertIsInstance(e.reason, ConnectionRefusedError) @inlineCallbacks def test_receiver(self): cfg = config("receive") cfg.hide_progress = True cfg.listen = False cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() cfg.code = u"1-abc" receive_d = cmd_receive.receive(cfg) e = yield self.assertFailure(receive_d, ServerConnectionError) self.assertIsInstance(e.reason, ConnectionRefusedError) class Cleanup(ServerBase, unittest.TestCase): def make_config(self): cfg = config("send") # common options for all tests in this suite cfg.hide_progress = True cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() return cfg @inlineCallbacks @mock.patch('sys.stdout') def test_text(self, stdout): # the rendezvous channel should be deleted after success cfg = self.make_config() cfg.text = "hello" cfg.code = u"1-abc" send_d = cmd_send.send(cfg) receive_d = cmd_receive.receive(cfg) yield send_d yield receive_d cids = self._rendezvous.get_app(cmd_send.APPID).get_nameplate_ids() self.assertEqual(len(cids), 0) @inlineCallbacks def test_text_wrong_password(self): # if the password was wrong, the rendezvous channel should still be # deleted send_cfg = self.make_config() send_cfg.text = "secret message" send_cfg.code = u"1-abc" send_d = cmd_send.send(send_cfg) rx_cfg = self.make_config() rx_cfg.code = u"1-WRONG" receive_d = cmd_receive.receive(rx_cfg) # both sides should be capable of detecting the mismatch yield self.assertFailure(send_d, WrongPasswordError) yield self.assertFailure(receive_d, WrongPasswordError) cids = self._rendezvous.get_app(cmd_send.APPID).get_nameplate_ids() self.assertEqual(len(cids), 0) class ExtractFile(unittest.TestCase): def test_filenames(self): args = mock.Mock() args.relay_url = u"" ef = cmd_receive.Receiver(args)._extract_file extract_dir = os.path.abspath(self.mktemp()) zf = mock.Mock() zi = mock.Mock() zi.filename = "ok" zi.external_attr = 5 << 16 expected = os.path.join(extract_dir, "ok") with mock.patch.object(cmd_receive.os, "chmod") as chmod: ef(zf, zi, extract_dir) self.assertEqual(zf.extract.mock_calls, [mock.call(zi.filename, path=extract_dir)]) self.assertEqual(chmod.mock_calls, [mock.call(expected, 5)]) zf = mock.Mock() zi = mock.Mock() zi.filename = "../haha" e = self.assertRaises(ValueError, ef, zf, zi, extract_dir) self.assertIn("malicious zipfile", str(e)) zf = mock.Mock() zi = mock.Mock() zi.filename = "haha//root" # abspath squashes this, hopefully zipfile # does too zi.external_attr = 5 << 16 expected = os.path.join(extract_dir, "haha", "root") with mock.patch.object(cmd_receive.os, "chmod") as chmod: ef(zf, zi, extract_dir) self.assertEqual(zf.extract.mock_calls, [mock.call(zi.filename, path=extract_dir)]) self.assertEqual(chmod.mock_calls, [mock.call(expected, 5)]) zf = mock.Mock() zi = mock.Mock() zi.filename = "/etc/passwd" e = self.assertRaises(ValueError, ef, zf, zi, extract_dir) self.assertIn("malicious zipfile", str(e)) class AppID(ServerBase, unittest.TestCase): @inlineCallbacks def setUp(self): yield super(AppID, self).setUp() self.cfg = cfg = config("send") # common options for all tests in this suite cfg.hide_progress = True cfg.relay_url = self.relayurl cfg.transit_helper = "" cfg.stdout = io.StringIO() cfg.stderr = io.StringIO() @inlineCallbacks def test_override(self): # make sure we use the overridden appid, not the default self.cfg.text = "hello" self.cfg.appid = u"appid2" self.cfg.code = u"1-abc" send_d = cmd_send.send(self.cfg) receive_d = cmd_receive.receive(self.cfg) yield send_d yield receive_d used = self._usage_db.execute("SELECT DISTINCT `app_id`" " FROM `nameplates`").fetchall() self.assertEqual(len(used), 1, used) self.assertEqual(used[0]["app_id"], u"appid2") class Welcome(unittest.TestCase): def do(self, welcome_message, my_version="2.0"): stderr = io.StringIO() welcome.handle_welcome(welcome_message, "url", my_version, stderr) return stderr.getvalue() def test_empty(self): stderr = self.do({}) self.assertEqual(stderr, "") def test_version_current(self): stderr = self.do({"current_cli_version": "2.0"}) self.assertEqual(stderr, "") def test_version_old(self): stderr = self.do({"current_cli_version": "3.0"}) expected = ("Warning: errors may occur unless both sides are" " running the same version\n" "Server claims 3.0 is current, but ours is 2.0\n") self.assertEqual(stderr, expected) def test_version_unreleased(self): stderr = self.do( { "current_cli_version": "3.0" }, my_version="2.5+middle.something") self.assertEqual(stderr, "") def test_motd(self): stderr = self.do({"motd": "hello"}) self.assertEqual(stderr, "Server (at url) says:\n hello\n") class Dispatch(unittest.TestCase): @inlineCallbacks def test_success(self): cfg = config("send") cfg.stderr = io.StringIO() called = [] def fake(): called.append(1) yield cli._dispatch_command(reactor, cfg, fake) self.assertEqual(called, [1]) self.assertEqual(cfg.stderr.getvalue(), "") @inlineCallbacks def test_timing(self): cfg = config("send") cfg.stderr = io.StringIO() cfg.timing = mock.Mock() cfg.dump_timing = "filename" def fake(): pass yield cli._dispatch_command(reactor, cfg, fake) self.assertEqual(cfg.stderr.getvalue(), "") self.assertEqual(cfg.timing.mock_calls[-1], mock.call.write("filename", cfg.stderr)) @inlineCallbacks def test_wrong_password_error(self): cfg = config("send") cfg.stderr = io.StringIO() def fake(): raise WrongPasswordError("abcd") yield self.assertFailure( cli._dispatch_command(reactor, cfg, fake), SystemExit) expected = fill("ERROR: " + dedent(WrongPasswordError.__doc__)) + "\n" self.assertEqual(cfg.stderr.getvalue(), expected) @inlineCallbacks def test_welcome_error(self): cfg = config("send") cfg.stderr = io.StringIO() def fake(): raise WelcomeError("abcd") yield self.assertFailure( cli._dispatch_command(reactor, cfg, fake), SystemExit) expected = ( fill("ERROR: " + dedent(WelcomeError.__doc__)) + "\n\nabcd\n") self.assertEqual(cfg.stderr.getvalue(), expected) @inlineCallbacks def test_transfer_error(self): cfg = config("send") cfg.stderr = io.StringIO() def fake(): raise TransferError("abcd") yield self.assertFailure( cli._dispatch_command(reactor, cfg, fake), SystemExit) expected = "TransferError: abcd\n" self.assertEqual(cfg.stderr.getvalue(), expected) @inlineCallbacks def test_server_connection_error(self): cfg = config("send") cfg.stderr = io.StringIO() def fake(): raise ServerConnectionError("URL", ValueError("abcd")) yield self.assertFailure( cli._dispatch_command(reactor, cfg, fake), SystemExit) expected = fill( "ERROR: " + dedent(ServerConnectionError.__doc__)) + "\n" expected += "(relay URL was URL)\n" expected += "abcd\n" self.assertEqual(cfg.stderr.getvalue(), expected) @inlineCallbacks def test_other_error(self): cfg = config("send") cfg.stderr = io.StringIO() def fake(): raise ValueError("abcd") # I'm seeing unicode problems with the Failure().printTraceback, and # the output would be kind of unpredictable anyways, so we'll mock it # out here. f = mock.Mock() def mock_print(file): file.write(u"\n") f.printTraceback = mock_print with mock.patch("wormhole.cli.cli.Failure", return_value=f): yield self.assertFailure( cli._dispatch_command(reactor, cfg, fake), SystemExit) expected = "\nERROR: abcd\n" self.assertEqual(cfg.stderr.getvalue(), expected) class Help(unittest.TestCase): def _check_top_level_help(self, got): # the main wormhole.cli.cli.wormhole docstring should be in the # output, but formatted differently self.assertIn("Create a Magic Wormhole and communicate through it.", got) self.assertIn("--relay-url", got) self.assertIn("Receive a text message, file, or directory", got) def test_help(self): result = CliRunner().invoke(cli.wormhole, ["help"]) self._check_top_level_help(result.output) self.assertEqual(result.exit_code, 0) def test_dash_dash_help(self): result = CliRunner().invoke(cli.wormhole, ["--help"]) self._check_top_level_help(result.output) self.assertEqual(result.exit_code, 0)