"""Regresssion tests for urllib""" import urllib.parse import urllib.request import http.client import email.message import io import unittest from test import support import os import tempfile def hexescape(char): """Escape char as RFC 2396 specifies""" hex_repr = hex(ord(char))[2:].upper() if len(hex_repr) == 1: hex_repr = "0%s" % hex_repr return "%" + hex_repr # Shortcut for testing FancyURLopener _urlopener = None def urlopen(url, data=None, proxies=None): """urlopen(url [, data]) -> open file-like object""" global _urlopener if proxies is not None: opener = urllib.request.FancyURLopener(proxies=proxies) elif not _urlopener: opener = urllib.request.FancyURLopener() _urlopener = opener else: opener = _urlopener if data is None: return opener.open(url) else: return opener.open(url, data) class urlopen_FileTests(unittest.TestCase): """Test urlopen() opening a temporary file. Try to test as much functionality as possible so as to cut down on reliance on connecting to the Net for testing. """ def setUp(self): # Create a temp file to use for testing self.text = bytes("test_urllib: %s\n" % self.__class__.__name__, "ascii") f = open(support.TESTFN, 'wb') try: f.write(self.text) finally: f.close() self.pathname = support.TESTFN self.returned_obj = urlopen("file:%s" % self.pathname) def tearDown(self): """Shut down the open object""" self.returned_obj.close() os.remove(support.TESTFN) def test_interface(self): # Make sure object returned by urlopen() has the specified methods for attr in ("read", "readline", "readlines", "fileno", "close", "info", "geturl", "getcode", "__iter__"): self.assertTrue(hasattr(self.returned_obj, attr), "object returned by urlopen() lacks %s attribute" % attr) def test_read(self): self.assertEqual(self.text, self.returned_obj.read()) def test_readline(self): self.assertEqual(self.text, self.returned_obj.readline()) self.assertEqual(b'', self.returned_obj.readline(), "calling readline() after exhausting the file did not" " return an empty string") def test_readlines(self): lines_list = self.returned_obj.readlines() self.assertEqual(len(lines_list), 1, "readlines() returned the wrong number of lines") self.assertEqual(lines_list[0], self.text, "readlines() returned improper text") def test_fileno(self): file_num = self.returned_obj.fileno() self.assertTrue(isinstance(file_num, int), "fileno() did not return an int") self.assertEqual(os.read(file_num, len(self.text)), self.text, "Reading on the file descriptor returned by fileno() " "did not return the expected text") def test_close(self): # Test close() by calling it hear and then having it be called again # by the tearDown() method for the test self.returned_obj.close() def test_info(self): self.assertTrue(isinstance(self.returned_obj.info(), email.message.Message)) def test_geturl(self): self.assertEqual(self.returned_obj.geturl(), self.pathname) def test_getcode(self): self.assertEqual(self.returned_obj.getcode(), None) def test_iter(self): # Test iterator # Don't need to count number of iterations since test would fail the # instant it returned anything beyond the first line from the # comparison for line in self.returned_obj.__iter__(): self.assertEqual(line, self.text) class ProxyTests(unittest.TestCase): def setUp(self): # Records changes to env vars self.env = support.EnvironmentVarGuard() # Delete all proxy related env vars for k in os.environ.keys(): if 'proxy' in k.lower(): self.env.unset(k) def tearDown(self): # Restore all proxy related env vars self.env.__exit__() del self.env def test_getproxies_environment_keep_no_proxies(self): self.env.set('NO_PROXY', 'localhost') proxies = urllib.request.getproxies_environment() # getproxies_environment use lowered case truncated (no '_proxy') keys self.assertEquals('localhost', proxies['no']) class urlopen_HttpTests(unittest.TestCase): """Test urlopen() opening a fake http connection.""" def fakehttp(self, fakedata): class FakeSocket(io.BytesIO): def sendall(self, str): pass def makefile(self, *args, **kwds): return self def read(self, amt=None): if self.closed: return b"" return io.BytesIO.read(self, amt) def readline(self, length=None): if self.closed: return b"" return io.BytesIO.readline(self, length) class FakeHTTPConnection(http.client.HTTPConnection): def connect(self): self.sock = FakeSocket(fakedata) self._connection_class = http.client.HTTPConnection http.client.HTTPConnection = FakeHTTPConnection def unfakehttp(self): http.client.HTTPConnection = self._connection_class def test_read(self): self.fakehttp(b"Hello!") try: fp = urlopen("http://python.org/") self.assertEqual(fp.readline(), b"Hello!") self.assertEqual(fp.readline(), b"") self.assertEqual(fp.geturl(), 'http://python.org/') self.assertEqual(fp.getcode(), 200) finally: self.unfakehttp() def test_read_bogus(self): # urlopen() should raise IOError for many error codes. self.fakehttp(b'''HTTP/1.1 401 Authentication Required Date: Wed, 02 Jan 2008 03:03:54 GMT Server: Apache/1.3.33 (Debian GNU/Linux) mod_ssl/2.8.22 OpenSSL/0.9.7e Connection: close Content-Type: text/html; charset=iso-8859-1 ''') try: self.assertRaises(IOError, urlopen, "http://python.org/") finally: self.unfakehttp() def test_empty_socket(self): # urlopen() raises IOError if the underlying socket does not send any # data. (#1680230) self.fakehttp(b'') try: self.assertRaises(IOError, urlopen, "http://something") finally: self.unfakehttp() def test_userpass_inurl(self): self.fakehttp(b"Hello!") try: fp = urlopen("http://user:pass@python.org/") self.assertEqual(fp.readline(), b"Hello!") self.assertEqual(fp.readline(), b"") self.assertEqual(fp.geturl(), 'http://user:pass@python.org/') self.assertEqual(fp.getcode(), 200) finally: self.unfakehttp() class urlretrieve_FileTests(unittest.TestCase): """Test urllib.urlretrieve() on local files""" def setUp(self): # Create a list of temporary files. Each item in the list is a file # name (absolute path or relative to the current working directory). # All files in this list will be deleted in the tearDown method. Note, # this only helps to makes sure temporary files get deleted, but it # does nothing about trying to close files that may still be open. It # is the responsibility of the developer to properly close files even # when exceptional conditions occur. self.tempFiles = [] # Create a temporary file. self.registerFileForCleanUp(support.TESTFN) self.text = b'testing urllib.urlretrieve' try: FILE = open(support.TESTFN, 'wb') FILE.write(self.text) FILE.close() finally: try: FILE.close() except: pass def tearDown(self): # Delete the temporary files. for each in self.tempFiles: try: os.remove(each) except: pass def constructLocalFileUrl(self, filePath): return "file://%s" % urllib.request.pathname2url( os.path.abspath(filePath)) def createNewTempFile(self, data=b""): """Creates a new temporary file containing the specified data, registers the file for deletion during the test fixture tear down, and returns the absolute path of the file.""" newFd, newFilePath = tempfile.mkstemp() try: self.registerFileForCleanUp(newFilePath) newFile = os.fdopen(newFd, "wb") newFile.write(data) newFile.close() finally: try: newFile.close() except: pass return newFilePath def registerFileForCleanUp(self, fileName): self.tempFiles.append(fileName) def test_basic(self): # Make sure that a local file just gets its own location returned and # a headers value is returned. result = urllib.request.urlretrieve("file:%s" % support.TESTFN) self.assertEqual(result[0], support.TESTFN) self.assertTrue(isinstance(result[1], email.message.Message), "did not get a email.message.Message instance as second " "returned value") def test_copy(self): # Test that setting the filename argument works. second_temp = "%s.2" % support.TESTFN self.registerFileForCleanUp(second_temp) result = urllib.request.urlretrieve(self.constructLocalFileUrl( support.TESTFN), second_temp) self.assertEqual(second_temp, result[0]) self.assertTrue(os.path.exists(second_temp), "copy of the file was not " "made") FILE = open(second_temp, 'rb') try: text = FILE.read() FILE.close() finally: try: FILE.close() except: pass self.assertEqual(self.text, text) def test_reporthook(self): # Make sure that the reporthook works. def hooktester(count, block_size, total_size, count_holder=[0]): self.assertTrue(isinstance(count, int)) self.assertTrue(isinstance(block_size, int)) self.assertTrue(isinstance(total_size, int)) self.assertEqual(count, count_holder[0]) count_holder[0] = count_holder[0] + 1 second_temp = "%s.2" % support.TESTFN self.registerFileForCleanUp(second_temp) urllib.request.urlretrieve( self.constructLocalFileUrl(support.TESTFN), second_temp, hooktester) def test_reporthook_0_bytes(self): # Test on zero length file. Should call reporthook only 1 time. report = [] def hooktester(count, block_size, total_size, _report=report): _report.append((count, block_size, total_size)) srcFileName = self.createNewTempFile() urllib.request.urlretrieve(self.constructLocalFileUrl(srcFileName), support.TESTFN, hooktester) self.assertEqual(len(report), 1) self.assertEqual(report[0][2], 0) def test_reporthook_5_bytes(self): # Test on 5 byte file. Should call reporthook only 2 times (once when # the "network connection" is established and once when the block is # read). Since the block size is 8192 bytes, only one block read is # required to read the entire file. report = [] def hooktester(count, block_size, total_size, _report=report): _report.append((count, block_size, total_size)) srcFileName = self.createNewTempFile(b"x" * 5) urllib.request.urlretrieve(self.constructLocalFileUrl(srcFileName), support.TESTFN, hooktester) self.assertEqual(len(report), 2) self.assertEqual(report[0][1], 8192) self.assertEqual(report[0][2], 5) def test_reporthook_8193_bytes(self): # Test on 8193 byte file. Should call reporthook only 3 times (once # when the "network connection" is established, once for the next 8192 # bytes, and once for the last byte). report = [] def hooktester(count, block_size, total_size, _report=report): _report.append((count, block_size, total_size)) srcFileName = self.createNewTempFile(b"x" * 8193) urllib.request.urlretrieve(self.constructLocalFileUrl(srcFileName), support.TESTFN, hooktester) self.assertEqual(len(report), 3) self.assertEqual(report[0][1], 8192) self.assertEqual(report[0][2], 8193) class QuotingTests(unittest.TestCase): """Tests for urllib.quote() and urllib.quote_plus() According to RFC 2396 (Uniform Resource Identifiers), to escape a character you write it as '%' + <2 character US-ASCII hex value>. The Python code of ``'%' + hex(ord())[2:]`` escapes a character properly. Case does not matter on the hex letters. The various character sets specified are: Reserved characters : ";/?:@&=+$," Have special meaning in URIs and must be escaped if not being used for their special meaning Data characters : letters, digits, and "-_.!~*'()" Unreserved and do not need to be escaped; can be, though, if desired Control characters : 0x00 - 0x1F, 0x7F Have no use in URIs so must be escaped space : 0x20 Must be escaped Delimiters : '<>#%"' Must be escaped Unwise : "{}|\^[]`" Must be escaped """ def test_never_quote(self): # Make sure quote() does not quote letters, digits, and "_,.-" do_not_quote = '' .join(["ABCDEFGHIJKLMNOPQRSTUVWXYZ", "abcdefghijklmnopqrstuvwxyz", "0123456789", "_.-"]) result = urllib.parse.quote(do_not_quote) self.assertEqual(do_not_quote, result, "using quote(): %r != %r" % (do_not_quote, result)) result = urllib.parse.quote_plus(do_not_quote) self.assertEqual(do_not_quote, result, "using quote_plus(): %r != %r" % (do_not_quote, result)) def test_default_safe(self): # Test '/' is default value for 'safe' parameter self.assertEqual(urllib.parse.quote.__defaults__[0], '/') def test_safe(self): # Test setting 'safe' parameter does what it should do quote_by_default = "<>" result = urllib.parse.quote(quote_by_default, safe=quote_by_default) self.assertEqual(quote_by_default, result, "using quote(): %r != %r" % (quote_by_default, result)) result = urllib.parse.quote_plus(quote_by_default, safe=quote_by_default) self.assertEqual(quote_by_default, result, "using quote_plus(): %r != %r" % (quote_by_default, result)) # Safe expressed as bytes rather than str result = urllib.parse.quote(quote_by_default, safe=b"<>") self.assertEqual(quote_by_default, result, "using quote(): %r != %r" % (quote_by_default, result)) # "Safe" non-ASCII characters should have no effect # (Since URIs are not allowed to have non-ASCII characters) result = urllib.parse.quote("a\xfcb", encoding="latin-1", safe="\xfc") expect = urllib.parse.quote("a\xfcb", encoding="latin-1", safe="") self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Same as above, but using a bytes rather than str result = urllib.parse.quote("a\xfcb", encoding="latin-1", safe=b"\xfc") expect = urllib.parse.quote("a\xfcb", encoding="latin-1", safe="") self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) def test_default_quoting(self): # Make sure all characters that should be quoted are by default sans # space (separate test for that). should_quote = [chr(num) for num in range(32)] # For 0x00 - 0x1F should_quote.append('<>#%"{}|\^[]`') should_quote.append(chr(127)) # For 0x7F should_quote = ''.join(should_quote) for char in should_quote: result = urllib.parse.quote(char) self.assertEqual(hexescape(char), result, "using quote(): " "%s should be escaped to %s, not %s" % (char, hexescape(char), result)) result = urllib.parse.quote_plus(char) self.assertEqual(hexescape(char), result, "using quote_plus(): " "%s should be escapes to %s, not %s" % (char, hexescape(char), result)) del should_quote partial_quote = "ab[]cd" expected = "ab%5B%5Dcd" result = urllib.parse.quote(partial_quote) self.assertEqual(expected, result, "using quote(): %r != %r" % (expected, result)) self.assertEqual(expected, result, "using quote_plus(): %r != %r" % (expected, result)) def test_quoting_space(self): # Make sure quote() and quote_plus() handle spaces as specified in # their unique way result = urllib.parse.quote(' ') self.assertEqual(result, hexescape(' '), "using quote(): %r != %r" % (result, hexescape(' '))) result = urllib.parse.quote_plus(' ') self.assertEqual(result, '+', "using quote_plus(): %r != +" % result) given = "a b cd e f" expect = given.replace(' ', hexescape(' ')) result = urllib.parse.quote(given) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) expect = given.replace(' ', '+') result = urllib.parse.quote_plus(given) self.assertEqual(expect, result, "using quote_plus(): %r != %r" % (expect, result)) def test_quoting_plus(self): self.assertEqual(urllib.parse.quote_plus('alpha+beta gamma'), 'alpha%2Bbeta+gamma') self.assertEqual(urllib.parse.quote_plus('alpha+beta gamma', '+'), 'alpha+beta+gamma') # Test with bytes self.assertEqual(urllib.parse.quote_plus(b'alpha+beta gamma'), 'alpha%2Bbeta+gamma') # Test with safe bytes self.assertEqual(urllib.parse.quote_plus('alpha+beta gamma', b'+'), 'alpha+beta+gamma') def test_quote_bytes(self): # Bytes should quote directly to percent-encoded values given = b"\xa2\xd8ab\xff" expect = "%A2%D8ab%FF" result = urllib.parse.quote(given) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Encoding argument should raise type error on bytes input self.assertRaises(TypeError, urllib.parse.quote, given, encoding="latin-1") # quote_from_bytes should work the same result = urllib.parse.quote_from_bytes(given) self.assertEqual(expect, result, "using quote_from_bytes(): %r != %r" % (expect, result)) def test_quote_with_unicode(self): # Characters in Latin-1 range, encoded by default in UTF-8 given = "\xa2\xd8ab\xff" expect = "%C2%A2%C3%98ab%C3%BF" result = urllib.parse.quote(given) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Characters in Latin-1 range, encoded by with None (default) result = urllib.parse.quote(given, encoding=None, errors=None) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Characters in Latin-1 range, encoded with Latin-1 given = "\xa2\xd8ab\xff" expect = "%A2%D8ab%FF" result = urllib.parse.quote(given, encoding="latin-1") self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Characters in BMP, encoded by default in UTF-8 given = "\u6f22\u5b57" # "Kanji" expect = "%E6%BC%A2%E5%AD%97" result = urllib.parse.quote(given) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Characters in BMP, encoded with Latin-1 given = "\u6f22\u5b57" self.assertRaises(UnicodeEncodeError, urllib.parse.quote, given, encoding="latin-1") # Characters in BMP, encoded with Latin-1, with replace error handling given = "\u6f22\u5b57" expect = "%3F%3F" # "??" result = urllib.parse.quote(given, encoding="latin-1", errors="replace") self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) # Characters in BMP, Latin-1, with xmlcharref error handling given = "\u6f22\u5b57" expect = "%26%2328450%3B%26%2323383%3B" # "漢字" result = urllib.parse.quote(given, encoding="latin-1", errors="xmlcharrefreplace") self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) def test_quote_plus_with_unicode(self): # Encoding (latin-1) test for quote_plus given = "\xa2\xd8 \xff" expect = "%A2%D8+%FF" result = urllib.parse.quote_plus(given, encoding="latin-1") self.assertEqual(expect, result, "using quote_plus(): %r != %r" % (expect, result)) # Errors test for quote_plus given = "ab\u6f22\u5b57 cd" expect = "ab%3F%3F+cd" result = urllib.parse.quote_plus(given, encoding="latin-1", errors="replace") self.assertEqual(expect, result, "using quote_plus(): %r != %r" % (expect, result)) class UnquotingTests(unittest.TestCase): """Tests for unquote() and unquote_plus() See the doc string for quoting_Tests for details on quoting and such. """ def test_unquoting(self): # Make sure unquoting of all ASCII values works escape_list = [] for num in range(128): given = hexescape(chr(num)) expect = chr(num) result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) result = urllib.parse.unquote_plus(given) self.assertEqual(expect, result, "using unquote_plus(): %r != %r" % (expect, result)) escape_list.append(given) escape_string = ''.join(escape_list) del escape_list result = urllib.parse.unquote(escape_string) self.assertEqual(result.count('%'), 1, "using unquote(): not all characters escaped: " "%s" % result) def test_unquoting_badpercent(self): # Test unquoting on bad percent-escapes given = '%xab' expect = given result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) given = '%x' expect = given result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) given = '%' expect = given result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # unquote_to_bytes given = '%xab' expect = bytes(given, 'ascii') result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) given = '%x' expect = bytes(given, 'ascii') result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) given = '%' expect = bytes(given, 'ascii') result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) def test_unquoting_mixed_case(self): # Test unquoting on mixed-case hex digits in the percent-escapes given = '%Ab%eA' expect = b'\xab\xea' result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) def test_unquoting_parts(self): # Make sure unquoting works when have non-quoted characters # interspersed given = 'ab%sd' % hexescape('c') expect = "abcd" result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using quote(): %r != %r" % (expect, result)) result = urllib.parse.unquote_plus(given) self.assertEqual(expect, result, "using unquote_plus(): %r != %r" % (expect, result)) def test_unquoting_plus(self): # Test difference between unquote() and unquote_plus() given = "are+there+spaces..." expect = given result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) expect = given.replace('+', ' ') result = urllib.parse.unquote_plus(given) self.assertEqual(expect, result, "using unquote_plus(): %r != %r" % (expect, result)) def test_unquote_to_bytes(self): given = 'br%C3%BCckner_sapporo_20050930.doc' expect = b'br\xc3\xbcckner_sapporo_20050930.doc' result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) # Test on a string with unescaped non-ASCII characters # (Technically an invalid URI; expect those characters to be UTF-8 # encoded). result = urllib.parse.unquote_to_bytes("\u6f22%C3%BC") expect = b'\xe6\xbc\xa2\xc3\xbc' # UTF-8 for "\u6f22\u00fc" self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) # Test with a bytes as input given = b'%A2%D8ab%FF' expect = b'\xa2\xd8ab\xff' result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) # Test with a bytes as input, with unescaped non-ASCII bytes # (Technically an invalid URI; expect those bytes to be preserved) given = b'%A2\xd8ab%FF' expect = b'\xa2\xd8ab\xff' result = urllib.parse.unquote_to_bytes(given) self.assertEqual(expect, result, "using unquote_to_bytes(): %r != %r" % (expect, result)) def test_unquote_with_unicode(self): # Characters in the Latin-1 range, encoded with UTF-8 given = 'br%C3%BCckner_sapporo_20050930.doc' expect = 'br\u00fcckner_sapporo_20050930.doc' result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Characters in the Latin-1 range, encoded with None (default) result = urllib.parse.unquote(given, encoding=None, errors=None) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Characters in the Latin-1 range, encoded with Latin-1 result = urllib.parse.unquote('br%FCckner_sapporo_20050930.doc', encoding="latin-1") expect = 'br\u00fcckner_sapporo_20050930.doc' self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Characters in BMP, encoded with UTF-8 given = "%E6%BC%A2%E5%AD%97" expect = "\u6f22\u5b57" # "Kanji" result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Decode with UTF-8, invalid sequence given = "%F3%B1" expect = "\ufffd" # Replacement character result = urllib.parse.unquote(given) self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Decode with UTF-8, invalid sequence, replace errors result = urllib.parse.unquote(given, errors="replace") self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # Decode with UTF-8, invalid sequence, ignoring errors given = "%F3%B1" expect = "" result = urllib.parse.unquote(given, errors="ignore") self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # A mix of non-ASCII and percent-encoded characters, UTF-8 result = urllib.parse.unquote("\u6f22%C3%BC") expect = '\u6f22\u00fc' self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) # A mix of non-ASCII and percent-encoded characters, Latin-1 # (Note, the string contains non-Latin-1-representable characters) result = urllib.parse.unquote("\u6f22%FC", encoding="latin-1") expect = '\u6f22\u00fc' self.assertEqual(expect, result, "using unquote(): %r != %r" % (expect, result)) class urlencode_Tests(unittest.TestCase): """Tests for urlencode()""" def help_inputtype(self, given, test_type): """Helper method for testing different input types. 'given' must lead to only the pairs: * 1st, 1 * 2nd, 2 * 3rd, 3 Test cannot assume anything about order. Docs make no guarantee and have possible dictionary input. """ expect_somewhere = ["1st=1", "2nd=2", "3rd=3"] result = urllib.parse.urlencode(given) for expected in expect_somewhere: self.assertTrue(expected in result, "testing %s: %s not found in %s" % (test_type, expected, result)) self.assertEqual(result.count('&'), 2, "testing %s: expected 2 '&'s; got %s" % (test_type, result.count('&'))) amp_location = result.index('&') on_amp_left = result[amp_location - 1] on_amp_right = result[amp_location + 1] self.assertTrue(on_amp_left.isdigit() and on_amp_right.isdigit(), "testing %s: '&' not located in proper place in %s" % (test_type, result)) self.assertEqual(len(result), (5 * 3) + 2, #5 chars per thing and amps "testing %s: " "unexpected number of characters: %s != %s" % (test_type, len(result), (5 * 3) + 2)) def test_using_mapping(self): # Test passing in a mapping object as an argument. self.help_inputtype({"1st":'1', "2nd":'2', "3rd":'3'}, "using dict as input type") def test_using_sequence(self): # Test passing in a sequence of two-item sequences as an argument. self.help_inputtype([('1st', '1'), ('2nd', '2'), ('3rd', '3')], "using sequence of two-item tuples as input") def test_quoting(self): # Make sure keys and values are quoted using quote_plus() given = {"&":"="} expect = "%s=%s" % (hexescape('&'), hexescape('=')) result = urllib.parse.urlencode(given) self.assertEqual(expect, result) given = {"key name":"A bunch of pluses"} expect = "key+name=A+bunch+of+pluses" result = urllib.parse.urlencode(given) self.assertEqual(expect, result) def test_doseq(self): # Test that passing True for 'doseq' parameter works correctly given = {'sequence':['1', '2', '3']} expect = "sequence=%s" % urllib.parse.quote_plus(str(['1', '2', '3'])) result = urllib.parse.urlencode(given) self.assertEqual(expect, result) result = urllib.parse.urlencode(given, True) for value in given["sequence"]: expect = "sequence=%s" % value self.assertTrue(expect in result, "%s not found in %s" % (expect, result)) self.assertEqual(result.count('&'), 2, "Expected 2 '&'s, got %s" % result.count('&')) def test_empty_sequence(self): self.assertEqual("", urllib.parse.urlencode({})) self.assertEqual("", urllib.parse.urlencode([])) def test_nonstring_values(self): self.assertEqual("a=1", urllib.parse.urlencode({"a": 1})) self.assertEqual("a=None", urllib.parse.urlencode({"a": None})) def test_nonstring_seq_values(self): self.assertEqual("a=1&a=2", urllib.parse.urlencode({"a": [1, 2]}, True)) self.assertEqual("a=None&a=a", urllib.parse.urlencode({"a": [None, "a"]}, True)) self.assertEqual("a=a&a=b", urllib.parse.urlencode({"a": {"a": 1, "b": 1}}, True)) def test_urlencode_encoding(self): # ASCII encoding. Expect %3F with errors="replace' given = (('\u00a0', '\u00c1'),) expect = '%3F=%3F' result = urllib.parse.urlencode(given, encoding="ASCII", errors="replace") self.assertEqual(expect, result) # Default is UTF-8 encoding. given = (('\u00a0', '\u00c1'),) expect = '%C2%A0=%C3%81' result = urllib.parse.urlencode(given) self.assertEqual(expect, result) # Latin-1 encoding. given = (('\u00a0', '\u00c1'),) expect = '%A0=%C1' result = urllib.parse.urlencode(given, encoding="latin-1") self.assertEqual(expect, result) def test_urlencode_encoding_doseq(self): # ASCII Encoding. Expect %3F with errors="replace' given = (('\u00a0', '\u00c1'),) expect = '%3F=%3F' result = urllib.parse.urlencode(given, doseq=True, encoding="ASCII", errors="replace") self.assertEqual(expect, result) # ASCII Encoding. On a sequence of values. given = (("\u00a0", (1, "\u00c1")),) expect = '%3F=1&%3F=%3F' result = urllib.parse.urlencode(given, True, encoding="ASCII", errors="replace") self.assertEqual(expect, result) # Utf-8 given = (("\u00a0", "\u00c1"),) expect = '%C2%A0=%C3%81' result = urllib.parse.urlencode(given, True) self.assertEqual(expect, result) given = (("\u00a0", (42, "\u00c1")),) expect = '%C2%A0=42&%C2%A0=%C3%81' result = urllib.parse.urlencode(given, True) self.assertEqual(expect, result) # latin-1 given = (("\u00a0", "\u00c1"),) expect = '%A0=%C1' result = urllib.parse.urlencode(given, True, encoding="latin-1") self.assertEqual(expect, result) given = (("\u00a0", (42, "\u00c1")),) expect = '%A0=42&%A0=%C1' result = urllib.parse.urlencode(given, True, encoding="latin-1") self.assertEqual(expect, result) def test_urlencode_bytes(self): given = ((b'\xa0\x24', b'\xc1\x24'),) expect = '%A0%24=%C1%24' result = urllib.parse.urlencode(given) self.assertEqual(expect, result) result = urllib.parse.urlencode(given, True) self.assertEqual(expect, result) # Sequence of values given = ((b'\xa0\x24', (42, b'\xc1\x24')),) expect = '%A0%24=42&%A0%24=%C1%24' result = urllib.parse.urlencode(given, True) self.assertEqual(expect, result) def test_urlencode_encoding_safe_parameter(self): # Send '$' (\x24) as safe character # Default utf-8 encoding given = ((b'\xa0\x24', b'\xc1\x24'),) result = urllib.parse.urlencode(given, safe=":$") expect = '%A0$=%C1$' self.assertEqual(expect, result) given = ((b'\xa0\x24', b'\xc1\x24'),) result = urllib.parse.urlencode(given, doseq=True, safe=":$") expect = '%A0$=%C1$' self.assertEqual(expect, result) # Safe parameter in sequence given = ((b'\xa0\x24', (b'\xc1\x24', 0xd, 42)),) expect = '%A0$=%C1$&%A0$=13&%A0$=42' result = urllib.parse.urlencode(given, True, safe=":$") self.assertEqual(expect, result) # Test all above in latin-1 encoding given = ((b'\xa0\x24', b'\xc1\x24'),) result = urllib.parse.urlencode(given, safe=":$", encoding="latin-1") expect = '%A0$=%C1$' self.assertEqual(expect, result) given = ((b'\xa0\x24', b'\xc1\x24'),) expect = '%A0$=%C1$' result = urllib.parse.urlencode(given, doseq=True, safe=":$", encoding="latin-1") given = ((b'\xa0\x24', (b'\xc1\x24', 0xd, 42)),) expect = '%A0$=%C1$&%A0$=13&%A0$=42' result = urllib.parse.urlencode(given, True, safe=":$", encoding="latin-1") self.assertEqual(expect, result) class Pathname_Tests(unittest.TestCase): """Test pathname2url() and url2pathname()""" def test_basic(self): # Make sure simple tests pass expected_path = os.path.join("parts", "of", "a", "path") expected_url = "parts/of/a/path" result = urllib.request.pathname2url(expected_path) self.assertEqual(expected_url, result, "pathname2url() failed; %s != %s" % (result, expected_url)) result = urllib.request.url2pathname(expected_url) self.assertEqual(expected_path, result, "url2pathame() failed; %s != %s" % (result, expected_path)) def test_quoting(self): # Test automatic quoting and unquoting works for pathnam2url() and # url2pathname() respectively given = os.path.join("needs", "quot=ing", "here") expect = "needs/%s/here" % urllib.parse.quote("quot=ing") result = urllib.request.pathname2url(given) self.assertEqual(expect, result, "pathname2url() failed; %s != %s" % (expect, result)) expect = given result = urllib.request.url2pathname(result) self.assertEqual(expect, result, "url2pathname() failed; %s != %s" % (expect, result)) given = os.path.join("make sure", "using_quote") expect = "%s/using_quote" % urllib.parse.quote("make sure") result = urllib.request.pathname2url(given) self.assertEqual(expect, result, "pathname2url() failed; %s != %s" % (expect, result)) given = "make+sure/using_unquote" expect = os.path.join("make+sure", "using_unquote") result = urllib.request.url2pathname(given) self.assertEqual(expect, result, "url2pathname() failed; %s != %s" % (expect, result)) class Utility_Tests(unittest.TestCase): """Testcase to test the various utility functions in the urllib.""" def test_splitpasswd(self): """Some of password examples are not sensible, but it is added to confirming to RFC2617 and addressing issue4675. """ self.assertEqual(('user', 'ab'),urllib.parse.splitpasswd('user:ab')) self.assertEqual(('user', 'a\nb'),urllib.parse.splitpasswd('user:a\nb')) self.assertEqual(('user', 'a\tb'),urllib.parse.splitpasswd('user:a\tb')) self.assertEqual(('user', 'a\rb'),urllib.parse.splitpasswd('user:a\rb')) self.assertEqual(('user', 'a\fb'),urllib.parse.splitpasswd('user:a\fb')) self.assertEqual(('user', 'a\vb'),urllib.parse.splitpasswd('user:a\vb')) self.assertEqual(('user', 'a:b'),urllib.parse.splitpasswd('user:a:b')) class URLopener_Tests(unittest.TestCase): """Testcase to test the open method of URLopener class.""" def test_quoted_open(self): class DummyURLopener(urllib.request.URLopener): def open_spam(self, url): return url self.assertEqual(DummyURLopener().open( 'spam://example/ /'),'//example/%20/') # test the safe characters are not quoted by urlopen self.assertEqual(DummyURLopener().open( "spam://c:|windows%/:=&?~#+!$,;'@()*[]|/path/"), "//c:|windows%/:=&?~#+!$,;'@()*[]|/path/") # Just commented them out. # Can't really tell why keep failing in windows and sparc. # Everywhere else they work ok, but on those machines, someteimes # fail in one of the tests, sometimes in other. I have a linux, and # the tests go ok. # If anybody has one of the problematic enviroments, please help! # . Facundo # # def server(evt): # import socket, time # serv = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # serv.settimeout(3) # serv.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) # serv.bind(("", 9093)) # serv.listen(5) # try: # conn, addr = serv.accept() # conn.send("1 Hola mundo\n") # cantdata = 0 # while cantdata < 13: # data = conn.recv(13-cantdata) # cantdata += len(data) # time.sleep(.3) # conn.send("2 No more lines\n") # conn.close() # except socket.timeout: # pass # finally: # serv.close() # evt.set() # # class FTPWrapperTests(unittest.TestCase): # # def setUp(self): # import ftplib, time, threading # ftplib.FTP.port = 9093 # self.evt = threading.Event() # threading.Thread(target=server, args=(self.evt,)).start() # time.sleep(.1) # # def tearDown(self): # self.evt.wait() # # def testBasic(self): # # connects # ftp = urllib.ftpwrapper("myuser", "mypass", "localhost", 9093, []) # ftp.close() # # def testTimeoutNone(self): # # global default timeout is ignored # import socket # self.assertTrue(socket.getdefaulttimeout() is None) # socket.setdefaulttimeout(30) # try: # ftp = urllib.ftpwrapper("myuser", "mypass", "localhost", 9093, []) # finally: # socket.setdefaulttimeout(None) # self.assertEqual(ftp.ftp.sock.gettimeout(), 30) # ftp.close() # # def testTimeoutDefault(self): # # global default timeout is used # import socket # self.assertTrue(socket.getdefaulttimeout() is None) # socket.setdefaulttimeout(30) # try: # ftp = urllib.ftpwrapper("myuser", "mypass", "localhost", 9093, []) # finally: # socket.setdefaulttimeout(None) # self.assertEqual(ftp.ftp.sock.gettimeout(), 30) # ftp.close() # # def testTimeoutValue(self): # ftp = urllib.ftpwrapper("myuser", "mypass", "localhost", 9093, [], # timeout=30) # self.assertEqual(ftp.ftp.sock.gettimeout(), 30) # ftp.close() def test_main(): support.run_unittest( urlopen_FileTests, urlopen_HttpTests, urlretrieve_FileTests, ProxyTests, QuotingTests, UnquotingTests, urlencode_Tests, Pathname_Tests, Utility_Tests, URLopener_Tests, #FTPWrapperTests, ) if __name__ == '__main__': test_main()