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import errno
from http import client
import io
import os
import array
import socket

import unittest
TestCase = unittest.TestCase

from test import support

here = os.path.dirname(__file__)
# Self-signed cert file for 'localhost'
CERT_localhost = os.path.join(here, 'keycert.pem')
# Self-signed cert file for 'fakehostname'
CERT_fakehostname = os.path.join(here, 'keycert2.pem')
# Self-signed cert file for self-signed.pythontest.net
CERT_selfsigned_pythontestdotnet = os.path.join(here, 'selfsigned_pythontestdotnet.pem')

# constants for testing chunked encoding
chunked_start = (
    'HTTP/1.1 200 OK\r\n'
    'Transfer-Encoding: chunked\r\n\r\n'
    'a\r\n'
    'hello worl\r\n'
    '3\r\n'
    'd! \r\n'
    '8\r\n'
    'and now \r\n'
    '22\r\n'
    'for something completely different\r\n'
)
chunked_expected = b'hello world! and now for something completely different'
chunk_extension = ";foo=bar"
last_chunk = "0\r\n"
last_chunk_extended = "0" + chunk_extension + "\r\n"
trailers = "X-Dummy: foo\r\nX-Dumm2: bar\r\n"
chunked_end = "\r\n"

HOST = support.HOST

class FakeSocket:
    def __init__(self, text, fileclass=io.BytesIO, host=None, port=None):
        if isinstance(text, str):
            text = text.encode("ascii")
        self.text = text
        self.fileclass = fileclass
        self.data = b''
        self.sendall_calls = 0
        self.file_closed = False
        self.host = host
        self.port = port

    def sendall(self, data):
        self.sendall_calls += 1
        self.data += data

    def makefile(self, mode, bufsize=None):
        if mode != 'r' and mode != 'rb':
            raise client.UnimplementedFileMode()
        # keep the file around so we can check how much was read from it
        self.file = self.fileclass(self.text)
        self.file.close = self.file_close #nerf close ()
        return self.file

    def file_close(self):
        self.file_closed = True

    def close(self):
        pass

class EPipeSocket(FakeSocket):

    def __init__(self, text, pipe_trigger):
        # When sendall() is called with pipe_trigger, raise EPIPE.
        FakeSocket.__init__(self, text)
        self.pipe_trigger = pipe_trigger

    def sendall(self, data):
        if self.pipe_trigger in data:
            raise OSError(errno.EPIPE, "gotcha")
        self.data += data

    def close(self):
        pass

class NoEOFBytesIO(io.BytesIO):
    """Like BytesIO, but raises AssertionError on EOF.

    This is used below to test that http.client doesn't try to read
    more from the underlying file than it should.
    """
    def read(self, n=-1):
        data = io.BytesIO.read(self, n)
        if data == b'':
            raise AssertionError('caller tried to read past EOF')
        return data

    def readline(self, length=None):
        data = io.BytesIO.readline(self, length)
        if data == b'':
            raise AssertionError('caller tried to read past EOF')
        return data

class HeaderTests(TestCase):
    def test_auto_headers(self):
        # Some headers are added automatically, but should not be added by
        # .request() if they are explicitly set.

        class HeaderCountingBuffer(list):
            def __init__(self):
                self.count = {}
            def append(self, item):
                kv = item.split(b':')
                if len(kv) > 1:
                    # item is a 'Key: Value' header string
                    lcKey = kv[0].decode('ascii').lower()
                    self.count.setdefault(lcKey, 0)
                    self.count[lcKey] += 1
                list.append(self, item)

        for explicit_header in True, False:
            for header in 'Content-length', 'Host', 'Accept-encoding':
                conn = client.HTTPConnection('example.com')
                conn.sock = FakeSocket('blahblahblah')
                conn._buffer = HeaderCountingBuffer()

                body = 'spamspamspam'
                headers = {}
                if explicit_header:
                    headers[header] = str(len(body))
                conn.request('POST', '/', body, headers)
                self.assertEqual(conn._buffer.count[header.lower()], 1)

    def test_content_length_0(self):

        class ContentLengthChecker(list):
            def __init__(self):
                list.__init__(self)
                self.content_length = None
            def append(self, item):
                kv = item.split(b':', 1)
                if len(kv) > 1 and kv[0].lower() == b'content-length':
                    self.content_length = kv[1].strip()
                list.append(self, item)

        # POST with empty body
        conn = client.HTTPConnection('example.com')
        conn.sock = FakeSocket(None)
        conn._buffer = ContentLengthChecker()
        conn.request('POST', '/', '')
        self.assertEqual(conn._buffer.content_length, b'0',
                        'Header Content-Length not set')

        # PUT request with empty body
        conn = client.HTTPConnection('example.com')
        conn.sock = FakeSocket(None)
        conn._buffer = ContentLengthChecker()
        conn.request('PUT', '/', '')
        self.assertEqual(conn._buffer.content_length, b'0',
                        'Header Content-Length not set')

    def test_putheader(self):
        conn = client.HTTPConnection('example.com')
        conn.sock = FakeSocket(None)
        conn.putrequest('GET','/')
        conn.putheader('Content-length', 42)
        self.assertIn(b'Content-length: 42', conn._buffer)

    def test_ipv6host_header(self):
        # Default host header on IPv6 transaction should wrapped by [] if
        # its actual IPv6 address
        expected = b'GET /foo HTTP/1.1\r\nHost: [2001::]:81\r\n' \
                   b'Accept-Encoding: identity\r\n\r\n'
        conn = client.HTTPConnection('[2001::]:81')
        sock = FakeSocket('')
        conn.sock = sock
        conn.request('GET', '/foo')
        self.assertTrue(sock.data.startswith(expected))

        expected = b'GET /foo HTTP/1.1\r\nHost: [2001:102A::]\r\n' \
                   b'Accept-Encoding: identity\r\n\r\n'
        conn = client.HTTPConnection('[2001:102A::]')
        sock = FakeSocket('')
        conn.sock = sock
        conn.request('GET', '/foo')
        self.assertTrue(sock.data.startswith(expected))


class BasicTest(TestCase):
    def test_status_lines(self):
        # Test HTTP status lines

        body = "HTTP/1.1 200 Ok\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        self.assertEqual(resp.read(0), b'')  # Issue #20007
        self.assertFalse(resp.isclosed())
        self.assertFalse(resp.closed)
        self.assertEqual(resp.read(), b"Text")
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

        body = "HTTP/1.1 400.100 Not Ok\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        self.assertRaises(client.BadStatusLine, resp.begin)

    def test_bad_status_repr(self):
        exc = client.BadStatusLine('')
        self.assertEqual(repr(exc), '''BadStatusLine("\'\'",)''')

    def test_partial_reads(self):
        # if we have a length, the system knows when to close itself
        # same behaviour than when we read the whole thing with read()
        body = "HTTP/1.1 200 Ok\r\nContent-Length: 4\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        self.assertEqual(resp.read(2), b'Te')
        self.assertFalse(resp.isclosed())
        self.assertEqual(resp.read(2), b'xt')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_partial_readintos(self):
        # if we have a length, the system knows when to close itself
        # same behaviour than when we read the whole thing with read()
        body = "HTTP/1.1 200 Ok\r\nContent-Length: 4\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        b = bytearray(2)
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'Te')
        self.assertFalse(resp.isclosed())
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'xt')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_partial_reads_no_content_length(self):
        # when no length is present, the socket should be gracefully closed when
        # all data was read
        body = "HTTP/1.1 200 Ok\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        self.assertEqual(resp.read(2), b'Te')
        self.assertFalse(resp.isclosed())
        self.assertEqual(resp.read(2), b'xt')
        self.assertEqual(resp.read(1), b'')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_partial_readintos_no_content_length(self):
        # when no length is present, the socket should be gracefully closed when
        # all data was read
        body = "HTTP/1.1 200 Ok\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        b = bytearray(2)
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'Te')
        self.assertFalse(resp.isclosed())
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'xt')
        n = resp.readinto(b)
        self.assertEqual(n, 0)
        self.assertTrue(resp.isclosed())

    def test_partial_reads_incomplete_body(self):
        # if the server shuts down the connection before the whole
        # content-length is delivered, the socket is gracefully closed
        body = "HTTP/1.1 200 Ok\r\nContent-Length: 10\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        self.assertEqual(resp.read(2), b'Te')
        self.assertFalse(resp.isclosed())
        self.assertEqual(resp.read(2), b'xt')
        self.assertEqual(resp.read(1), b'')
        self.assertTrue(resp.isclosed())

    def test_partial_readintos_incomplete_body(self):
        # if the server shuts down the connection before the whole
        # content-length is delivered, the socket is gracefully closed
        body = "HTTP/1.1 200 Ok\r\nContent-Length: 10\r\n\r\nText"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        b = bytearray(2)
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'Te')
        self.assertFalse(resp.isclosed())
        n = resp.readinto(b)
        self.assertEqual(n, 2)
        self.assertEqual(bytes(b), b'xt')
        n = resp.readinto(b)
        self.assertEqual(n, 0)
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_host_port(self):
        # Check invalid host_port

        for hp in ("www.python.org:abc", "user:password@www.python.org"):
            self.assertRaises(client.InvalidURL, client.HTTPConnection, hp)

        for hp, h, p in (("[fe80::207:e9ff:fe9b]:8000",
                          "fe80::207:e9ff:fe9b", 8000),
                         ("www.python.org:80", "www.python.org", 80),
                         ("www.python.org:", "www.python.org", 80),
                         ("www.python.org", "www.python.org", 80),
                         ("[fe80::207:e9ff:fe9b]", "fe80::207:e9ff:fe9b", 80),
                         ("[fe80::207:e9ff:fe9b]:", "fe80::207:e9ff:fe9b", 80)):
            c = client.HTTPConnection(hp)
            self.assertEqual(h, c.host)
            self.assertEqual(p, c.port)

    def test_response_headers(self):
        # test response with multiple message headers with the same field name.
        text = ('HTTP/1.1 200 OK\r\n'
                'Set-Cookie: Customer="WILE_E_COYOTE"; '
                'Version="1"; Path="/acme"\r\n'
                'Set-Cookie: Part_Number="Rocket_Launcher_0001"; Version="1";'
                ' Path="/acme"\r\n'
                '\r\n'
                'No body\r\n')
        hdr = ('Customer="WILE_E_COYOTE"; Version="1"; Path="/acme"'
               ', '
               'Part_Number="Rocket_Launcher_0001"; Version="1"; Path="/acme"')
        s = FakeSocket(text)
        r = client.HTTPResponse(s)
        r.begin()
        cookies = r.getheader("Set-Cookie")
        self.assertEqual(cookies, hdr)

    def test_read_head(self):
        # Test that the library doesn't attempt to read any data
        # from a HEAD request.  (Tickles SF bug #622042.)
        sock = FakeSocket(
            'HTTP/1.1 200 OK\r\n'
            'Content-Length: 14432\r\n'
            '\r\n',
            NoEOFBytesIO)
        resp = client.HTTPResponse(sock, method="HEAD")
        resp.begin()
        if resp.read():
            self.fail("Did not expect response from HEAD request")

    def test_readinto_head(self):
        # Test that the library doesn't attempt to read any data
        # from a HEAD request.  (Tickles SF bug #622042.)
        sock = FakeSocket(
            'HTTP/1.1 200 OK\r\n'
            'Content-Length: 14432\r\n'
            '\r\n',
            NoEOFBytesIO)
        resp = client.HTTPResponse(sock, method="HEAD")
        resp.begin()
        b = bytearray(5)
        if resp.readinto(b) != 0:
            self.fail("Did not expect response from HEAD request")
        self.assertEqual(bytes(b), b'\x00'*5)

    def test_too_many_headers(self):
        headers = '\r\n'.join('Header%d: foo' % i
                              for i in range(client._MAXHEADERS + 1)) + '\r\n'
        text = ('HTTP/1.1 200 OK\r\n' + headers)
        s = FakeSocket(text)
        r = client.HTTPResponse(s)
        self.assertRaisesRegex(client.HTTPException,
                               r"got more than \d+ headers", r.begin)

    def test_send_file(self):
        expected = (b'GET /foo HTTP/1.1\r\nHost: example.com\r\n'
                    b'Accept-Encoding: identity\r\nContent-Length:')

        with open(__file__, 'rb') as body:
            conn = client.HTTPConnection('example.com')
            sock = FakeSocket(body)
            conn.sock = sock
            conn.request('GET', '/foo', body)
            self.assertTrue(sock.data.startswith(expected), '%r != %r' %
                    (sock.data[:len(expected)], expected))

    def test_send(self):
        expected = b'this is a test this is only a test'
        conn = client.HTTPConnection('example.com')
        sock = FakeSocket(None)
        conn.sock = sock
        conn.send(expected)
        self.assertEqual(expected, sock.data)
        sock.data = b''
        conn.send(array.array('b', expected))
        self.assertEqual(expected, sock.data)
        sock.data = b''
        conn.send(io.BytesIO(expected))
        self.assertEqual(expected, sock.data)

    def test_send_updating_file(self):
        def data():
            yield 'data'
            yield None
            yield 'data_two'

        class UpdatingFile():
            mode = 'r'
            d = data()
            def read(self, blocksize=-1):
                return self.d.__next__()

        expected = b'data'

        conn = client.HTTPConnection('example.com')
        sock = FakeSocket("")
        conn.sock = sock
        conn.send(UpdatingFile())
        self.assertEqual(sock.data, expected)


    def test_send_iter(self):
        expected = b'GET /foo HTTP/1.1\r\nHost: example.com\r\n' \
                   b'Accept-Encoding: identity\r\nContent-Length: 11\r\n' \
                   b'\r\nonetwothree'

        def body():
            yield b"one"
            yield b"two"
            yield b"three"

        conn = client.HTTPConnection('example.com')
        sock = FakeSocket("")
        conn.sock = sock
        conn.request('GET', '/foo', body(), {'Content-Length': '11'})
        self.assertEqual(sock.data, expected)

    def test_send_type_error(self):
        # See: Issue #12676
        conn = client.HTTPConnection('example.com')
        conn.sock = FakeSocket('')
        with self.assertRaises(TypeError):
            conn.request('POST', 'test', conn)

    def test_chunked(self):
        expected = chunked_expected
        sock = FakeSocket(chunked_start + last_chunk + chunked_end)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        resp.close()

        # Various read sizes
        for n in range(1, 12):
            sock = FakeSocket(chunked_start + last_chunk + chunked_end)
            resp = client.HTTPResponse(sock, method="GET")
            resp.begin()
            self.assertEqual(resp.read(n) + resp.read(n) + resp.read(), expected)
            resp.close()

        for x in ('', 'foo\r\n'):
            sock = FakeSocket(chunked_start + x)
            resp = client.HTTPResponse(sock, method="GET")
            resp.begin()
            try:
                resp.read()
            except client.IncompleteRead as i:
                self.assertEqual(i.partial, expected)
                expected_message = 'IncompleteRead(%d bytes read)' % len(expected)
                self.assertEqual(repr(i), expected_message)
                self.assertEqual(str(i), expected_message)
            else:
                self.fail('IncompleteRead expected')
            finally:
                resp.close()

    def test_readinto_chunked(self):

        expected = chunked_expected
        nexpected = len(expected)
        b = bytearray(128)

        sock = FakeSocket(chunked_start + last_chunk + chunked_end)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        n = resp.readinto(b)
        self.assertEqual(b[:nexpected], expected)
        self.assertEqual(n, nexpected)
        resp.close()

        # Various read sizes
        for n in range(1, 12):
            sock = FakeSocket(chunked_start + last_chunk + chunked_end)
            resp = client.HTTPResponse(sock, method="GET")
            resp.begin()
            m = memoryview(b)
            i = resp.readinto(m[0:n])
            i += resp.readinto(m[i:n + i])
            i += resp.readinto(m[i:])
            self.assertEqual(b[:nexpected], expected)
            self.assertEqual(i, nexpected)
            resp.close()

        for x in ('', 'foo\r\n'):
            sock = FakeSocket(chunked_start + x)
            resp = client.HTTPResponse(sock, method="GET")
            resp.begin()
            try:
                n = resp.readinto(b)
            except client.IncompleteRead as i:
                self.assertEqual(i.partial, expected)
                expected_message = 'IncompleteRead(%d bytes read)' % len(expected)
                self.assertEqual(repr(i), expected_message)
                self.assertEqual(str(i), expected_message)
            else:
                self.fail('IncompleteRead expected')
            finally:
                resp.close()

    def test_chunked_head(self):
        chunked_start = (
            'HTTP/1.1 200 OK\r\n'
            'Transfer-Encoding: chunked\r\n\r\n'
            'a\r\n'
            'hello world\r\n'
            '1\r\n'
            'd\r\n'
        )
        sock = FakeSocket(chunked_start + last_chunk + chunked_end)
        resp = client.HTTPResponse(sock, method="HEAD")
        resp.begin()
        self.assertEqual(resp.read(), b'')
        self.assertEqual(resp.status, 200)
        self.assertEqual(resp.reason, 'OK')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_readinto_chunked_head(self):
        chunked_start = (
            'HTTP/1.1 200 OK\r\n'
            'Transfer-Encoding: chunked\r\n\r\n'
            'a\r\n'
            'hello world\r\n'
            '1\r\n'
            'd\r\n'
        )
        sock = FakeSocket(chunked_start + last_chunk + chunked_end)
        resp = client.HTTPResponse(sock, method="HEAD")
        resp.begin()
        b = bytearray(5)
        n = resp.readinto(b)
        self.assertEqual(n, 0)
        self.assertEqual(bytes(b), b'\x00'*5)
        self.assertEqual(resp.status, 200)
        self.assertEqual(resp.reason, 'OK')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_negative_content_length(self):
        sock = FakeSocket(
            'HTTP/1.1 200 OK\r\nContent-Length: -1\r\n\r\nHello\r\n')
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), b'Hello\r\n')
        self.assertTrue(resp.isclosed())

    def test_incomplete_read(self):
        sock = FakeSocket('HTTP/1.1 200 OK\r\nContent-Length: 10\r\n\r\nHello\r\n')
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        try:
            resp.read()
        except client.IncompleteRead as i:
            self.assertEqual(i.partial, b'Hello\r\n')
            self.assertEqual(repr(i),
                             "IncompleteRead(7 bytes read, 3 more expected)")
            self.assertEqual(str(i),
                             "IncompleteRead(7 bytes read, 3 more expected)")
            self.assertTrue(resp.isclosed())
        else:
            self.fail('IncompleteRead expected')

    def test_epipe(self):
        sock = EPipeSocket(
            "HTTP/1.0 401 Authorization Required\r\n"
            "Content-type: text/html\r\n"
            "WWW-Authenticate: Basic realm=\"example\"\r\n",
            b"Content-Length")
        conn = client.HTTPConnection("example.com")
        conn.sock = sock
        self.assertRaises(OSError,
                          lambda: conn.request("PUT", "/url", "body"))
        resp = conn.getresponse()
        self.assertEqual(401, resp.status)
        self.assertEqual("Basic realm=\"example\"",
                         resp.getheader("www-authenticate"))

    # Test lines overflowing the max line size (_MAXLINE in http.client)

    def test_overflowing_status_line(self):
        body = "HTTP/1.1 200 Ok" + "k" * 65536 + "\r\n"
        resp = client.HTTPResponse(FakeSocket(body))
        self.assertRaises((client.LineTooLong, client.BadStatusLine), resp.begin)

    def test_overflowing_header_line(self):
        body = (
            'HTTP/1.1 200 OK\r\n'
            'X-Foo: bar' + 'r' * 65536 + '\r\n\r\n'
        )
        resp = client.HTTPResponse(FakeSocket(body))
        self.assertRaises(client.LineTooLong, resp.begin)

    def test_overflowing_chunked_line(self):
        body = (
            'HTTP/1.1 200 OK\r\n'
            'Transfer-Encoding: chunked\r\n\r\n'
            + '0' * 65536 + 'a\r\n'
            'hello world\r\n'
            '0\r\n'
            '\r\n'
        )
        resp = client.HTTPResponse(FakeSocket(body))
        resp.begin()
        self.assertRaises(client.LineTooLong, resp.read)

    def test_early_eof(self):
        # Test httpresponse with no \r\n termination,
        body = "HTTP/1.1 200 Ok"
        sock = FakeSocket(body)
        resp = client.HTTPResponse(sock)
        resp.begin()
        self.assertEqual(resp.read(), b'')
        self.assertTrue(resp.isclosed())
        self.assertFalse(resp.closed)
        resp.close()
        self.assertTrue(resp.closed)

    def test_delayed_ack_opt(self):
        # Test that Nagle/delayed_ack optimistaion works correctly.

        # For small payloads, it should coalesce the body with
        # headers, resulting in a single sendall() call
        conn = client.HTTPConnection('example.com')
        sock = FakeSocket(None)
        conn.sock = sock
        body = b'x' * (conn.mss - 1)
        conn.request('POST', '/', body)
        self.assertEqual(sock.sendall_calls, 1)

        # For large payloads, it should send the headers and
        # then the body, resulting in more than one sendall()
        # call
        conn = client.HTTPConnection('example.com')
        sock = FakeSocket(None)
        conn.sock = sock
        body = b'x' * conn.mss
        conn.request('POST', '/', body)
        self.assertGreater(sock.sendall_calls, 1)

    def test_error_leak(self):
        # Test that the socket is not leaked if getresponse() fails
        conn = client.HTTPConnection('example.com')
        response = None
        class Response(client.HTTPResponse):
            def __init__(self, *pos, **kw):
                nonlocal response
                response = self  # Avoid garbage collector closing the socket
                client.HTTPResponse.__init__(self, *pos, **kw)
        conn.response_class = Response
        conn.sock = FakeSocket('')  # Emulate server dropping connection
        conn.request('GET', '/')
        self.assertRaises(client.BadStatusLine, conn.getresponse)
        self.assertTrue(response.closed)
        self.assertTrue(conn.sock.file_closed)

    def test_chunked_extension(self):
        extra = '3;foo=bar\r\n' + 'abc\r\n'
        expected = chunked_expected + b'abc'

        sock = FakeSocket(chunked_start + extra + last_chunk_extended + chunked_end)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        resp.close()

    def test_chunked_missing_end(self):
        """some servers may serve up a short chunked encoding stream"""
        expected = chunked_expected
        sock = FakeSocket(chunked_start + last_chunk)  #no terminating crlf
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        resp.close()

    def test_chunked_trailers(self):
        """See that trailers are read and ignored"""
        expected = chunked_expected
        sock = FakeSocket(chunked_start + last_chunk + trailers + chunked_end)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        # we should have reached the end of the file
        self.assertEqual(sock.file.read(100), b"") #we read to the end
        resp.close()

    def test_chunked_sync(self):
        """Check that we don't read past the end of the chunked-encoding stream"""
        expected = chunked_expected
        extradata = "extradata"
        sock = FakeSocket(chunked_start + last_chunk + trailers + chunked_end + extradata)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        # the file should now have our extradata ready to be read
        self.assertEqual(sock.file.read(100), extradata.encode("ascii")) #we read to the end
        resp.close()

    def test_content_length_sync(self):
        """Check that we don't read past the end of the Content-Length stream"""
        extradata = "extradata"
        expected = b"Hello123\r\n"
        sock = FakeSocket('HTTP/1.1 200 OK\r\nContent-Length: 10\r\n\r\nHello123\r\n' + extradata)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        self.assertEqual(resp.read(), expected)
        # the file should now have our extradata ready to be read
        self.assertEqual(sock.file.read(100), extradata.encode("ascii")) #we read to the end
        resp.close()

class ExtendedReadTest(TestCase):
    """
    Test peek(), read1(), readline()
    """
    lines = (
        'HTTP/1.1 200 OK\r\n'
        '\r\n'
        'hello world!\n'
        'and now \n'
        'for something completely different\n'
        'foo'
        )
    lines_expected = lines[lines.find('hello'):].encode("ascii")
    lines_chunked = (
        'HTTP/1.1 200 OK\r\n'
        'Transfer-Encoding: chunked\r\n\r\n'
        'a\r\n'
        'hello worl\r\n'
        '3\r\n'
        'd!\n\r\n'
        '9\r\n'
        'and now \n\r\n'
        '23\r\n'
        'for something completely different\n\r\n'
        '3\r\n'
        'foo\r\n'
        '0\r\n' # terminating chunk
        '\r\n'  # end of trailers
    )

    def setUp(self):
        sock = FakeSocket(self.lines)
        resp = client.HTTPResponse(sock, method="GET")
        resp.begin()
        resp.fp = io.BufferedReader(resp.fp)
        self.resp = resp



    def test_peek(self):
        resp = self.resp
        # patch up the buffered peek so that it returns not too much stuff
        oldpeek = resp.fp.peek
        def mypeek(n=-1):
            p = oldpeek(n)
            if n >= 0:
                return p[:n]
            return p[:10]
        resp.fp.peek = mypeek

        all = []
        while True:
            # try a short peek
            p = resp.peek(3)
            if p:
                self.assertGreater(len(p), 0)
                # then unbounded peek
                p2 = resp.peek()
                self.assertGreaterEqual(len(p2), len(p))
                self.assertTrue(p2.startswith(p))
                next = resp.read(len(p2))
                self.assertEqual(next, p2)
            else:
                next = resp.read()
                self.assertFalse(next)
            all.append(next)
            if not next:
                break
        self.assertEqual(b"".join(all), self.lines_expected)

    def test_readline(self):
        resp = self.resp
        self._verify_readline(self.resp.readline, self.lines_expected)

    def _verify_readline(self, readline, expected):
        all = []
        while True:
            # short readlines
            line = readline(5)
            if line and line != b"foo":
                if len(line) < 5:
                    self.assertTrue(line.endswith(b"\n"))
            all.append(line)
            if not line:
                break
        self.assertEqual(b"".join(all), expected)

    def test_read1(self):
        resp = self.resp
        def r():
            res = resp.read1(4)
            self.assertLessEqual(len(res), 4)
            return res
        readliner = Readliner(r)
        self._verify_readline(readliner.readline, self.lines_expected)

    def test_read1_unbounded(self):
        resp = self.resp
        all = []
        while True:
            data = resp.read1()
            if not data:
                break
            all.append(data)
        self.assertEqual(b"".join(all), self.lines_expected)

    def test_read1_bounded(self):
        resp = self.resp
        all = []
        while True:
            data = resp.read1(10)
            if not data:
                break
            self.assertLessEqual(len(data), 10)
            all.append(data)
        self.assertEqual(b"".join(all), self.lines_expected)

    def test_read1_0(self):
        self.assertEqual(self.resp.read1(0), b"")

    def test_peek_0(self):
        p = self.resp.peek(0)
        self.assertLessEqual(0, len(p))

class ExtendedReadTestChunked(ExtendedReadTest):
    """
    Test peek(), read1(), readline() in chunked mode
    """
    lines = (
        'HTTP/1.1 200 OK\r\n'
        'Transfer-Encoding: chunked\r\n\r\n'
        'a\r\n'
        'hello worl\r\n'
        '3\r\n'
        'd!\n\r\n'
        '9\r\n'
        'and now \n\r\n'
        '23\r\n'
        'for something completely different\n\r\n'
        '3\r\n'
        'foo\r\n'
        '0\r\n' # terminating chunk
        '\r\n'  # end of trailers
    )


class Readliner:
    """
    a simple readline class that uses an arbitrary read function and buffering
    """
    def __init__(self, readfunc):
        self.readfunc = readfunc
        self.remainder = b""

    def readline(self, limit):
        data = []
        datalen = 0
        read = self.remainder
        try:
            while True:
                idx = read.find(b'\n')
                if idx != -1:
                    break
                if datalen + len(read) >= limit:
                    idx = limit - datalen - 1
                # read more data
                data.append(read)
                read = self.readfunc()
                if not read:
                    idx = 0 #eof condition
                    break
            idx += 1
            data.append(read[:idx])
            self.remainder = read[idx:]
            return b"".join(data)
        except:
            self.remainder = b"".join(data)
            raise

class OfflineTest(TestCase):
    def test_responses(self):
        self.assertEqual(client.responses[client.NOT_FOUND], "Not Found")


class SourceAddressTest(TestCase):
    def setUp(self):
        self.serv = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.port = support.bind_port(self.serv)
        self.source_port = support.find_unused_port()
        self.serv.listen()
        self.conn = None

    def tearDown(self):
        if self.conn:
            self.conn.close()
            self.conn = None
        self.serv.close()
        self.serv = None

    def testHTTPConnectionSourceAddress(self):
        self.conn = client.HTTPConnection(HOST, self.port,
                source_address=('', self.source_port))
        self.conn.connect()
        self.assertEqual(self.conn.sock.getsockname()[1], self.source_port)

    @unittest.skipIf(not hasattr(client, 'HTTPSConnection'),
                     'http.client.HTTPSConnection not defined')
    def testHTTPSConnectionSourceAddress(self):
        self.conn = client.HTTPSConnection(HOST, self.port,
                source_address=('', self.source_port))
        # We don't test anything here other the constructor not barfing as
        # this code doesn't deal with setting up an active running SSL server
        # for an ssl_wrapped connect() to actually return from.


class TimeoutTest(TestCase):
    PORT = None

    def setUp(self):
        self.serv = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        TimeoutTest.PORT = support.bind_port(self.serv)
        self.serv.listen()

    def tearDown(self):
        self.serv.close()
        self.serv = None

    def testTimeoutAttribute(self):
        # This will prove that the timeout gets through HTTPConnection
        # and into the socket.

        # default -- use global socket timeout
        self.assertIsNone(socket.getdefaulttimeout())
        socket.setdefaulttimeout(30)
        try:
            httpConn = client.HTTPConnection(HOST, TimeoutTest.PORT)
            httpConn.connect()
        finally:
            socket.setdefaulttimeout(None)
        self.assertEqual(httpConn.sock.gettimeout(), 30)
        httpConn.close()

        # no timeout -- do not use global socket default
        self.assertIsNone(socket.getdefaulttimeout())
        socket.setdefaulttimeout(30)
        try:
            httpConn = client.HTTPConnection(HOST, TimeoutTest.PORT,
                                              timeout=None)
            httpConn.connect()
        finally:
            socket.setdefaulttimeout(None)
        self.assertEqual(httpConn.sock.gettimeout(), None)
        httpConn.close()

        # a value
        httpConn = client.HTTPConnection(HOST, TimeoutTest.PORT, timeout=30)
        httpConn.connect()
        self.assertEqual(httpConn.sock.gettimeout(), 30)
        httpConn.close()


class HTTPSTest(TestCase):

    def setUp(self):
        if not hasattr(client, 'HTTPSConnection'):
            self.skipTest('ssl support required')

    def make_server(self, certfile):
        from test.ssl_servers import make_https_server
        return make_https_server(self, certfile=certfile)

    def test_attributes(self):
        # simple test to check it's storing the timeout
        h = client.HTTPSConnection(HOST, TimeoutTest.PORT, timeout=30)
        self.assertEqual(h.timeout, 30)

    def test_networked(self):
        # Default settings: requires a valid cert from a trusted CA
        import ssl
        support.requires('network')
        with support.transient_internet('self-signed.pythontest.net'):
            h = client.HTTPSConnection('self-signed.pythontest.net', 443)
            with self.assertRaises(ssl.SSLError) as exc_info:
                h.request('GET', '/')
            self.assertEqual(exc_info.exception.reason, 'CERTIFICATE_VERIFY_FAILED')

    def test_networked_noverification(self):
        # Switch off cert verification
        import ssl
        support.requires('network')
        with support.transient_internet('self-signed.pythontest.net'):
            context = ssl._create_unverified_context()
            h = client.HTTPSConnection('self-signed.pythontest.net', 443,
                                       context=context)
            h.request('GET', '/')
            resp = h.getresponse()
            self.assertIn('nginx', resp.getheader('server'))

    @support.system_must_validate_cert
    def test_networked_trusted_by_default_cert(self):
        # Default settings: requires a valid cert from a trusted CA
        support.requires('network')
        with support.transient_internet('www.python.org'):
            h = client.HTTPSConnection('www.python.org', 443)
            h.request('GET', '/')
            resp = h.getresponse()
            content_type = resp.getheader('content-type')
            self.assertIn('text/html', content_type)

    def test_networked_good_cert(self):
        # We feed the server's cert as a validating cert
        import ssl
        support.requires('network')
        with support.transient_internet('self-signed.pythontest.net'):
            context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
            context.verify_mode = ssl.CERT_REQUIRED
            context.load_verify_locations(CERT_selfsigned_pythontestdotnet)
            h = client.HTTPSConnection('self-signed.pythontest.net', 443, context=context)
            h.request('GET', '/')
            resp = h.getresponse()
            server_string = resp.getheader('server')
            self.assertIn('nginx', server_string)

    def test_networked_bad_cert(self):
        # We feed a "CA" cert that is unrelated to the server's cert
        import ssl
        support.requires('network')
        with support.transient_internet('self-signed.pythontest.net'):
            context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
            context.verify_mode = ssl.CERT_REQUIRED
            context.load_verify_locations(CERT_localhost)
            h = client.HTTPSConnection('self-signed.pythontest.net', 443, context=context)
            with self.assertRaises(ssl.SSLError) as exc_info:
                h.request('GET', '/')
            self.assertEqual(exc_info.exception.reason, 'CERTIFICATE_VERIFY_FAILED')

    def test_local_unknown_cert(self):
        # The custom cert isn't known to the default trust bundle
        import ssl
        server = self.make_server(CERT_localhost)
        h = client.HTTPSConnection('localhost', server.port)
        with self.assertRaises(ssl.SSLError) as exc_info:
            h.request('GET', '/')
        self.assertEqual(exc_info.exception.reason, 'CERTIFICATE_VERIFY_FAILED')

    def test_local_good_hostname(self):
        # The (valid) cert validates the HTTP hostname
        import ssl
        server = self.make_server(CERT_localhost)
        context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
        context.verify_mode = ssl.CERT_REQUIRED
        context.load_verify_locations(CERT_localhost)
        h = client.HTTPSConnection('localhost', server.port, context=context)
        h.request('GET', '/nonexistent')
        resp = h.getresponse()
        self.assertEqual(resp.status, 404)

    def test_local_bad_hostname(self):
        # The (valid) cert doesn't validate the HTTP hostname
        import ssl
        server = self.make_server(CERT_fakehostname)
        context = ssl.SSLContext(ssl.PROTOCOL_TLSv1)
        context.verify_mode = ssl.CERT_REQUIRED
        context.check_hostname = True
        context.load_verify_locations(CERT_fakehostname)
        h = client.HTTPSConnection('localhost', server.port, context=context)
        with self.assertRaises(ssl.CertificateError):
            h.request('GET', '/')
        # Same with explicit check_hostname=True
        h = client.HTTPSConnection('localhost', server.port, context=context,
                                   check_hostname=True)
        with self.assertRaises(ssl.CertificateError):
            h.request('GET', '/')
        # With check_hostname=False, the mismatching is ignored
        context.check_hostname = False
        h = client.HTTPSConnection('localhost', server.port, context=context,
                                   check_hostname=False)
        h.request('GET', '/nonexistent')
        resp = h.getresponse()
        self.assertEqual(resp.status, 404)
        # The context's check_hostname setting is used if one isn't passed to
        # HTTPSConnection.
        context.check_hostname = False
        h = client.HTTPSConnection('localhost', server.port, context=context)
        h.request('GET', '/nonexistent')
        self.assertEqual(h.getresponse().status, 404)
        # Passing check_hostname to HTTPSConnection should override the
        # context's setting.
        h = client.HTTPSConnection('localhost', server.port, context=context,
                                   check_hostname=True)
        with self.assertRaises(ssl.CertificateError):
            h.request('GET', '/')

    @unittest.skipIf(not hasattr(client, 'HTTPSConnection'),
                     'http.client.HTTPSConnection not available')
    def test_host_port(self):
        # Check invalid host_port

        for hp in ("www.python.org:abc", "user:password@www.python.org"):
            self.assertRaises(client.InvalidURL, client.HTTPSConnection, hp)

        for hp, h, p in (("[fe80::207:e9ff:fe9b]:8000",
                          "fe80::207:e9ff:fe9b", 8000),
                         ("www.python.org:443", "www.python.org", 443),
                         ("www.python.org:", "www.python.org", 443),
                         ("www.python.org", "www.python.org", 443),
                         ("[fe80::207:e9ff:fe9b]", "fe80::207:e9ff:fe9b", 443),
                         ("[fe80::207:e9ff:fe9b]:", "fe80::207:e9ff:fe9b",
                             443)):
            c = client.HTTPSConnection(hp)
            self.assertEqual(h, c.host)
            self.assertEqual(p, c.port)


class RequestBodyTest(TestCase):
    """Test cases where a request includes a message body."""

    def setUp(self):
        self.conn = client.HTTPConnection('example.com')
        self.conn.sock = self.sock = FakeSocket("")
        self.conn.sock = self.sock

    def get_headers_and_fp(self):
        f = io.BytesIO(self.sock.data)
        f.readline()  # read the request line
        message = client.parse_headers(f)
        return message, f

    def test_manual_content_length(self):
        # Set an incorrect content-length so that we can verify that
        # it will not be over-ridden by the library.
        self.conn.request("PUT", "/url", "body",
                          {"Content-Length": "42"})
        message, f = self.get_headers_and_fp()
        self.assertEqual("42", message.get("content-length"))
        self.assertEqual(4, len(f.read()))

    def test_ascii_body(self):
        self.conn.request("PUT", "/url", "body")
        message, f = self.get_headers_and_fp()
        self.assertEqual("text/plain", message.get_content_type())
        self.assertIsNone(message.get_charset())
        self.assertEqual("4", message.get("content-length"))
        self.assertEqual(b'body', f.read())

    def test_latin1_body(self):
        self.conn.request("PUT", "/url", "body\xc1")
        message, f = self.get_headers_and_fp()
        self.assertEqual("text/plain", message.get_content_type())
        self.assertIsNone(message.get_charset())
        self.assertEqual("5", message.get("content-length"))
        self.assertEqual(b'body\xc1', f.read())

    def test_bytes_body(self):
        self.conn.request("PUT", "/url", b"body\xc1")
        message, f = self.get_headers_and_fp()
        self.assertEqual("text/plain", message.get_content_type())
        self.assertIsNone(message.get_charset())
        self.assertEqual("5", message.get("content-length"))
        self.assertEqual(b'body\xc1', f.read())

    def test_file_body(self):
        self.addCleanup(support.unlink, support.TESTFN)
        with open(support.TESTFN, "w") as f:
            f.write("body")
        with open(support.TESTFN) as f:
            self.conn.request("PUT", "/url", f)
            message, f = self.get_headers_and_fp()
            self.assertEqual("text/plain", message.get_content_type())
            self.assertIsNone(message.get_charset())
            self.assertEqual("4", message.get("content-length"))
            self.assertEqual(b'body', f.read())

    def test_binary_file_body(self):
        self.addCleanup(support.unlink, support.TESTFN)
        with open(support.TESTFN, "wb") as f:
            f.write(b"body\xc1")
        with open(support.TESTFN, "rb") as f:
            self.conn.request("PUT", "/url", f)
            message, f = self.get_headers_and_fp()
            self.assertEqual("text/plain", message.get_content_type())
            self.assertIsNone(message.get_charset())
            self.assertEqual("5", message.get("content-length"))
            self.assertEqual(b'body\xc1', f.read())


class HTTPResponseTest(TestCase):

    def setUp(self):
        body = "HTTP/1.1 200 Ok\r\nMy-Header: first-value\r\nMy-Header: \
                second-value\r\n\r\nText"
        sock = FakeSocket(body)
        self.resp = client.HTTPResponse(sock)
        self.resp.begin()

    def test_getting_header(self):
        header = self.resp.getheader('My-Header')
        self.assertEqual(header, 'first-value, second-value')

        header = self.resp.getheader('My-Header', 'some default')
        self.assertEqual(header, 'first-value, second-value')

    def test_getting_nonexistent_header_with_string_default(self):
        header = self.resp.getheader('No-Such-Header', 'default-value')
        self.assertEqual(header, 'default-value')

    def test_getting_nonexistent_header_with_iterable_default(self):
        header = self.resp.getheader('No-Such-Header', ['default', 'values'])
        self.assertEqual(header, 'default, values')

        header = self.resp.getheader('No-Such-Header', ('default', 'values'))
        self.assertEqual(header, 'default, values')

    def test_getting_nonexistent_header_without_default(self):
        header = self.resp.getheader('No-Such-Header')
        self.assertEqual(header, None)

    def test_getting_header_defaultint(self):
        header = self.resp.getheader('No-Such-Header',default=42)
        self.assertEqual(header, 42)

class TunnelTests(TestCase):

    def test_connect(self):
        response_text = (
            'HTTP/1.0 200 OK\r\n\r\n' # Reply to CONNECT
            'HTTP/1.1 200 OK\r\n' # Reply to HEAD
            'Content-Length: 42\r\n\r\n'
        )

        def create_connection(address, timeout=None, source_address=None):
            return FakeSocket(response_text, host=address[0],
                              port=address[1])

        conn = client.HTTPConnection('proxy.com')
        conn._create_connection = create_connection

        # Once connected, we shouldn't be able to tunnel anymore
        conn.connect()
        self.assertRaises(RuntimeError, conn.set_tunnel,
                          'destination.com')

        # But if we close the connection, we're good
        conn.close()
        conn.set_tunnel('destination.com')
        conn.request('HEAD', '/', '')

        self.assertEqual(conn.sock.host, 'proxy.com')
        self.assertEqual(conn.sock.port, 80)
        self.assertTrue(b'CONNECT destination.com' in conn.sock.data)
        self.assertTrue(b'Host: destination.com' in conn.sock.data)

        # This test should be removed when CONNECT gets the HTTP/1.1 blessing
        self.assertTrue(b'Host: proxy.com' not in conn.sock.data)

        conn.close()
        conn.request('PUT', '/', '')
        self.assertEqual(conn.sock.host, 'proxy.com')
        self.assertEqual(conn.sock.port, 80)
        self.assertTrue(b'CONNECT destination.com' in conn.sock.data)
        self.assertTrue(b'Host: destination.com' in conn.sock.data)

def test_main(verbose=None):
    support.run_unittest(HeaderTests, OfflineTest, BasicTest, TimeoutTest,
                         HTTPSTest, RequestBodyTest, SourceAddressTest,
                         HTTPResponseTest, ExtendedReadTest,
                         ExtendedReadTestChunked, TunnelTests)

if __name__ == '__main__':
    test_main()