__init__.py
652 lines
| 25.6 KiB
| text/x-python
|
PythonLexer
Augie Fackler
|
r14243 | # Copyright 2010, Google Inc. | ||
# All rights reserved. | ||||
# | ||||
# Redistribution and use in source and binary forms, with or without | ||||
# modification, are permitted provided that the following conditions are | ||||
# met: | ||||
# | ||||
# * Redistributions of source code must retain the above copyright | ||||
# notice, this list of conditions and the following disclaimer. | ||||
# * Redistributions in binary form must reproduce the above | ||||
# copyright notice, this list of conditions and the following disclaimer | ||||
# in the documentation and/or other materials provided with the | ||||
# distribution. | ||||
# * Neither the name of Google Inc. nor the names of its | ||||
# contributors may be used to endorse or promote products derived from | ||||
# this software without specific prior written permission. | ||||
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS | ||||
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT | ||||
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR | ||||
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT | ||||
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, | ||||
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT | ||||
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, | ||||
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY | ||||
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT | ||||
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE | ||||
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | ||||
"""Improved HTTP/1.1 client library | ||||
This library contains an HTTPConnection which is similar to the one in | ||||
httplib, but has several additional features: | ||||
* supports keepalives natively | ||||
* uses select() to block for incoming data | ||||
* notices when the server responds early to a request | ||||
* implements ssl inline instead of in a different class | ||||
""" | ||||
import cStringIO | ||||
import errno | ||||
import httplib | ||||
import logging | ||||
import rfc822 | ||||
import select | ||||
import socket | ||||
import socketutil | ||||
logger = logging.getLogger(__name__) | ||||
__all__ = ['HTTPConnection', 'HTTPResponse'] | ||||
HTTP_VER_1_0 = 'HTTP/1.0' | ||||
HTTP_VER_1_1 = 'HTTP/1.1' | ||||
_LEN_CLOSE_IS_END = -1 | ||||
OUTGOING_BUFFER_SIZE = 1 << 15 | ||||
INCOMING_BUFFER_SIZE = 1 << 20 | ||||
HDR_ACCEPT_ENCODING = 'accept-encoding' | ||||
HDR_CONNECTION_CTRL = 'connection' | ||||
HDR_CONTENT_LENGTH = 'content-length' | ||||
HDR_XFER_ENCODING = 'transfer-encoding' | ||||
XFER_ENCODING_CHUNKED = 'chunked' | ||||
CONNECTION_CLOSE = 'close' | ||||
EOL = '\r\n' | ||||
_END_HEADERS = EOL * 2 | ||||
# Based on some searching around, 1 second seems like a reasonable | ||||
# default here. | ||||
TIMEOUT_ASSUME_CONTINUE = 1 | ||||
TIMEOUT_DEFAULT = None | ||||
class HTTPResponse(object): | ||||
"""Response from an HTTP server. | ||||
The response will continue to load as available. If you need the | ||||
complete response before continuing, check the .complete() method. | ||||
""" | ||||
def __init__(self, sock, timeout): | ||||
self.sock = sock | ||||
self.raw_response = '' | ||||
self._body = None | ||||
self._headers_len = 0 | ||||
self._content_len = 0 | ||||
self.headers = None | ||||
self.will_close = False | ||||
self.status_line = '' | ||||
self.status = None | ||||
self.http_version = None | ||||
self.reason = None | ||||
self._chunked = False | ||||
self._chunked_done = False | ||||
self._chunked_until_next = 0 | ||||
self._chunked_skip_bytes = 0 | ||||
self._chunked_preloaded_block = None | ||||
self._read_location = 0 | ||||
self._eol = EOL | ||||
self._timeout = timeout | ||||
@property | ||||
def _end_headers(self): | ||||
return self._eol * 2 | ||||
def complete(self): | ||||
"""Returns true if this response is completely loaded. | ||||
""" | ||||
if self._chunked: | ||||
return self._chunked_done | ||||
if self._content_len == _LEN_CLOSE_IS_END: | ||||
return False | ||||
return self._body is not None and len(self._body) >= self._content_len | ||||
def readline(self): | ||||
"""Read a single line from the response body. | ||||
This may block until either a line ending is found or the | ||||
response is complete. | ||||
""" | ||||
eol = self._body.find('\n', self._read_location) | ||||
while eol == -1 and not self.complete(): | ||||
self._select() | ||||
eol = self._body.find('\n', self._read_location) | ||||
if eol != -1: | ||||
eol += 1 | ||||
else: | ||||
eol = len(self._body) | ||||
data = self._body[self._read_location:eol] | ||||
self._read_location = eol | ||||
return data | ||||
def read(self, length=None): | ||||
# if length is None, unbounded read | ||||
while (not self.complete() # never select on a finished read | ||||
and (not length # unbounded, so we wait for complete() | ||||
or (self._read_location + length) > len(self._body))): | ||||
self._select() | ||||
if not length: | ||||
length = len(self._body) - self._read_location | ||||
elif len(self._body) < (self._read_location + length): | ||||
length = len(self._body) - self._read_location | ||||
r = self._body[self._read_location:self._read_location + length] | ||||
self._read_location += len(r) | ||||
if self.complete() and self.will_close: | ||||
self.sock.close() | ||||
return r | ||||
def _select(self): | ||||
r, _, _ = select.select([self.sock], [], [], self._timeout) | ||||
if not r: | ||||
# socket was not readable. If the response is not complete | ||||
# and we're not a _LEN_CLOSE_IS_END response, raise a timeout. | ||||
# If we are a _LEN_CLOSE_IS_END response and we have no data, | ||||
# raise a timeout. | ||||
if not (self.complete() or | ||||
(self._content_len == _LEN_CLOSE_IS_END and self._body)): | ||||
logger.info('timed out with timeout of %s', self._timeout) | ||||
raise HTTPTimeoutException('timeout reading data') | ||||
logger.info('cl: %r body: %r', self._content_len, self._body) | ||||
data = self.sock.recv(INCOMING_BUFFER_SIZE) | ||||
logger.debug('response read %d data during _select', len(data)) | ||||
if not data: | ||||
if not self.headers: | ||||
self._load_response(self._end_headers) | ||||
self._content_len = 0 | ||||
elif self._content_len == _LEN_CLOSE_IS_END: | ||||
self._content_len = len(self._body) | ||||
return False | ||||
else: | ||||
self._load_response(data) | ||||
return True | ||||
def _chunked_parsedata(self, data): | ||||
if self._chunked_preloaded_block: | ||||
data = self._chunked_preloaded_block + data | ||||
self._chunked_preloaded_block = None | ||||
while data: | ||||
logger.debug('looping with %d data remaining', len(data)) | ||||
# Slice out anything we should skip | ||||
if self._chunked_skip_bytes: | ||||
if len(data) <= self._chunked_skip_bytes: | ||||
self._chunked_skip_bytes -= len(data) | ||||
data = '' | ||||
break | ||||
else: | ||||
data = data[self._chunked_skip_bytes:] | ||||
self._chunked_skip_bytes = 0 | ||||
# determine how much is until the next chunk | ||||
if self._chunked_until_next: | ||||
amt = self._chunked_until_next | ||||
logger.debug('reading remaining %d of existing chunk', amt) | ||||
self._chunked_until_next = 0 | ||||
body = data | ||||
else: | ||||
try: | ||||
amt, body = data.split(self._eol, 1) | ||||
except ValueError: | ||||
self._chunked_preloaded_block = data | ||||
logger.debug('saving %r as a preloaded block for chunked', | ||||
self._chunked_preloaded_block) | ||||
return | ||||
amt = int(amt, base=16) | ||||
logger.debug('reading chunk of length %d', amt) | ||||
if amt == 0: | ||||
self._chunked_done = True | ||||
# read through end of what we have or the chunk | ||||
self._body += body[:amt] | ||||
if len(body) >= amt: | ||||
data = body[amt:] | ||||
self._chunked_skip_bytes = len(self._eol) | ||||
else: | ||||
self._chunked_until_next = amt - len(body) | ||||
self._chunked_skip_bytes = 0 | ||||
data = '' | ||||
def _load_response(self, data): | ||||
if self._chunked: | ||||
self._chunked_parsedata(data) | ||||
return | ||||
elif self._body is not None: | ||||
self._body += data | ||||
return | ||||
# We haven't seen end of headers yet | ||||
self.raw_response += data | ||||
# This is a bogus server with bad line endings | ||||
if self._eol not in self.raw_response: | ||||
for bad_eol in ('\n', '\r'): | ||||
if (bad_eol in self.raw_response | ||||
# verify that bad_eol is not the end of the incoming data | ||||
# as this could be a response line that just got | ||||
# split between \r and \n. | ||||
and (self.raw_response.index(bad_eol) < | ||||
(len(self.raw_response) - 1))): | ||||
logger.info('bogus line endings detected, ' | ||||
'using %r for EOL', bad_eol) | ||||
self._eol = bad_eol | ||||
break | ||||
# exit early if not at end of headers | ||||
if self._end_headers not in self.raw_response or self.headers: | ||||
return | ||||
# handle 100-continue response | ||||
hdrs, body = self.raw_response.split(self._end_headers, 1) | ||||
http_ver, status = hdrs.split(' ', 1) | ||||
if status.startswith('100'): | ||||
self.raw_response = body | ||||
logger.debug('continue seen, setting body to %r', body) | ||||
return | ||||
# arriving here means we should parse response headers | ||||
# as all headers have arrived completely | ||||
hdrs, body = self.raw_response.split(self._end_headers, 1) | ||||
del self.raw_response | ||||
if self._eol in hdrs: | ||||
self.status_line, hdrs = hdrs.split(self._eol, 1) | ||||
else: | ||||
self.status_line = hdrs | ||||
hdrs = '' | ||||
# TODO HTTP < 1.0 support | ||||
(self.http_version, self.status, | ||||
self.reason) = self.status_line.split(' ', 2) | ||||
self.status = int(self.status) | ||||
if self._eol != EOL: | ||||
hdrs = hdrs.replace(self._eol, '\r\n') | ||||
headers = rfc822.Message(cStringIO.StringIO(hdrs)) | ||||
if HDR_CONTENT_LENGTH in headers: | ||||
self._content_len = int(headers[HDR_CONTENT_LENGTH]) | ||||
if self.http_version == HTTP_VER_1_0: | ||||
self.will_close = True | ||||
elif HDR_CONNECTION_CTRL in headers: | ||||
self.will_close = ( | ||||
headers[HDR_CONNECTION_CTRL].lower() == CONNECTION_CLOSE) | ||||
if self._content_len == 0: | ||||
self._content_len = _LEN_CLOSE_IS_END | ||||
if (HDR_XFER_ENCODING in headers | ||||
and headers[HDR_XFER_ENCODING].lower() == XFER_ENCODING_CHUNKED): | ||||
self._body = '' | ||||
self._chunked_parsedata(body) | ||||
self._chunked = True | ||||
if self._body is None: | ||||
self._body = body | ||||
self.headers = headers | ||||
class HTTPConnection(object): | ||||
"""Connection to a single http server. | ||||
Supports 100-continue and keepalives natively. Uses select() for | ||||
non-blocking socket operations. | ||||
""" | ||||
http_version = HTTP_VER_1_1 | ||||
response_class = HTTPResponse | ||||
def __init__(self, host, port=None, use_ssl=None, ssl_validator=None, | ||||
timeout=TIMEOUT_DEFAULT, | ||||
continue_timeout=TIMEOUT_ASSUME_CONTINUE, | ||||
proxy_hostport=None, **ssl_opts): | ||||
"""Create a new HTTPConnection. | ||||
Args: | ||||
host: The host to which we'll connect. | ||||
port: Optional. The port over which we'll connect. Default 80 for | ||||
non-ssl, 443 for ssl. | ||||
use_ssl: Optional. Wether to use ssl. Defaults to False if port is | ||||
not 443, true if port is 443. | ||||
ssl_validator: a function(socket) to validate the ssl cert | ||||
timeout: Optional. Connection timeout, default is TIMEOUT_DEFAULT. | ||||
continue_timeout: Optional. Timeout for waiting on an expected | ||||
"100 Continue" response. Default is TIMEOUT_ASSUME_CONTINUE. | ||||
proxy_hostport: Optional. Tuple of (host, port) to use as an http | ||||
proxy for the connection. Default is to not use a proxy. | ||||
""" | ||||
if port is None and host.count(':') == 1 or ']:' in host: | ||||
host, port = host.rsplit(':', 1) | ||||
port = int(port) | ||||
if '[' in host: | ||||
host = host[1:-1] | ||||
if use_ssl is None and port is None: | ||||
use_ssl = False | ||||
port = 80 | ||||
elif use_ssl is None: | ||||
use_ssl = (port == 443) | ||||
elif port is None: | ||||
port = (use_ssl and 443 or 80) | ||||
self.port = port | ||||
if use_ssl and not socketutil.have_ssl: | ||||
raise Exception('ssl requested but unavailable on this Python') | ||||
self.ssl = use_ssl | ||||
self.ssl_opts = ssl_opts | ||||
self._ssl_validator = ssl_validator | ||||
self.host = host | ||||
self.sock = None | ||||
self._current_response = None | ||||
self._current_response_taken = False | ||||
if proxy_hostport is None: | ||||
self._proxy_host = self._proxy_port = None | ||||
else: | ||||
self._proxy_host, self._proxy_port = proxy_hostport | ||||
self.timeout = timeout | ||||
self.continue_timeout = continue_timeout | ||||
def _connect(self): | ||||
"""Connect to the host and port specified in __init__.""" | ||||
if self.sock: | ||||
return | ||||
if self._proxy_host is not None: | ||||
logger.info('Connecting to http proxy %s:%s', | ||||
self._proxy_host, self._proxy_port) | ||||
sock = socketutil.create_connection((self._proxy_host, | ||||
self._proxy_port)) | ||||
if self.ssl: | ||||
# TODO proxy header support | ||||
data = self.buildheaders('CONNECT', '%s:%d' % (self.host, | ||||
self.port), | ||||
{}, HTTP_VER_1_0) | ||||
sock.send(data) | ||||
sock.setblocking(0) | ||||
r = self.response_class(sock, self.timeout) | ||||
timeout_exc = HTTPTimeoutException( | ||||
'Timed out waiting for CONNECT response from proxy') | ||||
while not r.complete(): | ||||
try: | ||||
if not r._select(): | ||||
raise timeout_exc | ||||
except HTTPTimeoutException: | ||||
# This raise/except pattern looks goofy, but | ||||
# _select can raise the timeout as well as the | ||||
# loop body. I wish it wasn't this convoluted, | ||||
# but I don't have a better solution | ||||
# immediately handy. | ||||
raise timeout_exc | ||||
if r.status != 200: | ||||
raise HTTPProxyConnectFailedException( | ||||
'Proxy connection failed: %d %s' % (r.status, | ||||
r.read())) | ||||
logger.info('CONNECT (for SSL) to %s:%s via proxy succeeded.', | ||||
self.host, self.port) | ||||
else: | ||||
sock = socketutil.create_connection((self.host, self.port)) | ||||
if self.ssl: | ||||
logger.debug('wrapping socket for ssl with options %r', | ||||
self.ssl_opts) | ||||
sock = socketutil.wrap_socket(sock, **self.ssl_opts) | ||||
if self._ssl_validator: | ||||
self._ssl_validator(sock) | ||||
sock.setblocking(0) | ||||
self.sock = sock | ||||
def buildheaders(self, method, path, headers, http_ver): | ||||
if self.ssl and self.port == 443 or self.port == 80: | ||||
# default port for protocol, so leave it out | ||||
hdrhost = self.host | ||||
else: | ||||
# include nonstandard port in header | ||||
if ':' in self.host: # must be IPv6 | ||||
hdrhost = '[%s]:%d' % (self.host, self.port) | ||||
else: | ||||
hdrhost = '%s:%d' % (self.host, self.port) | ||||
if self._proxy_host and not self.ssl: | ||||
# When talking to a regular http proxy we must send the | ||||
# full URI, but in all other cases we must not (although | ||||
# technically RFC 2616 says servers must accept our | ||||
# request if we screw up, experimentally few do that | ||||
# correctly.) | ||||
assert path[0] == '/', 'path must start with a /' | ||||
path = 'http://%s%s' % (hdrhost, path) | ||||
outgoing = ['%s %s %s%s' % (method, path, http_ver, EOL)] | ||||
headers['host'] = ('Host', hdrhost) | ||||
headers[HDR_ACCEPT_ENCODING] = (HDR_ACCEPT_ENCODING, 'identity') | ||||
for hdr, val in headers.itervalues(): | ||||
outgoing.append('%s: %s%s' % (hdr, val, EOL)) | ||||
outgoing.append(EOL) | ||||
return ''.join(outgoing) | ||||
def close(self): | ||||
"""Close the connection to the server. | ||||
This is a no-op if the connection is already closed. The | ||||
connection may automatically close if requessted by the server | ||||
or required by the nature of a response. | ||||
""" | ||||
if self.sock is None: | ||||
return | ||||
self.sock.close() | ||||
self.sock = None | ||||
logger.info('closed connection to %s on %s', self.host, self.port) | ||||
def busy(self): | ||||
"""Returns True if this connection object is currently in use. | ||||
If a response is still pending, this will return True, even if | ||||
the request has finished sending. In the future, | ||||
HTTPConnection may transparently juggle multiple connections | ||||
to the server, in which case this will be useful to detect if | ||||
any of those connections is ready for use. | ||||
""" | ||||
cr = self._current_response | ||||
if cr is not None: | ||||
if self._current_response_taken: | ||||
if cr.will_close: | ||||
self.sock = None | ||||
self._current_response = None | ||||
return False | ||||
elif cr.complete(): | ||||
self._current_response = None | ||||
return False | ||||
return True | ||||
return False | ||||
def request(self, method, path, body=None, headers={}, | ||||
expect_continue=False): | ||||
"""Send a request to the server. | ||||
For increased flexibility, this does not return the response | ||||
object. Future versions of HTTPConnection that juggle multiple | ||||
sockets will be able to send (for example) 5 requests all at | ||||
once, and then let the requests arrive as data is | ||||
available. Use the `getresponse()` method to retrieve the | ||||
response. | ||||
""" | ||||
if self.busy(): | ||||
raise httplib.CannotSendRequest( | ||||
'Can not send another request before ' | ||||
'current response is read!') | ||||
self._current_response_taken = False | ||||
logger.info('sending %s request for %s to %s on port %s', | ||||
method, path, self.host, self.port) | ||||
hdrs = dict((k.lower(), (k, v)) for k, v in headers.iteritems()) | ||||
if hdrs.get('expect', ('', ''))[1].lower() == '100-continue': | ||||
expect_continue = True | ||||
elif expect_continue: | ||||
hdrs['expect'] = ('Expect', '100-Continue') | ||||
chunked = False | ||||
if body and HDR_CONTENT_LENGTH not in hdrs: | ||||
if getattr(body, '__len__', False): | ||||
hdrs[HDR_CONTENT_LENGTH] = (HDR_CONTENT_LENGTH, len(body)) | ||||
elif getattr(body, 'read', False): | ||||
hdrs[HDR_XFER_ENCODING] = (HDR_XFER_ENCODING, | ||||
XFER_ENCODING_CHUNKED) | ||||
chunked = True | ||||
else: | ||||
raise BadRequestData('body has no __len__() nor read()') | ||||
self._connect() | ||||
outgoing_headers = self.buildheaders( | ||||
method, path, hdrs, self.http_version) | ||||
response = None | ||||
first = True | ||||
def reconnect(where): | ||||
logger.info('reconnecting during %s', where) | ||||
self.close() | ||||
self._connect() | ||||
while ((outgoing_headers or body) | ||||
and not (response and response.complete())): | ||||
select_timeout = self.timeout | ||||
out = outgoing_headers or body | ||||
blocking_on_continue = False | ||||
if expect_continue and not outgoing_headers and not ( | ||||
response and response.headers): | ||||
logger.info( | ||||
'waiting up to %s seconds for' | ||||
' continue response from server', | ||||
self.continue_timeout) | ||||
select_timeout = self.continue_timeout | ||||
blocking_on_continue = True | ||||
out = False | ||||
if out: | ||||
w = [self.sock] | ||||
else: | ||||
w = [] | ||||
r, w, x = select.select([self.sock], w, [], select_timeout) | ||||
# if we were expecting a 100 continue and it's been long | ||||
# enough, just go ahead and assume it's ok. This is the | ||||
# recommended behavior from the RFC. | ||||
if r == w == x == []: | ||||
if blocking_on_continue: | ||||
expect_continue = False | ||||
logger.info('no response to continue expectation from ' | ||||
'server, optimistically sending request body') | ||||
else: | ||||
raise HTTPTimeoutException('timeout sending data') | ||||
# TODO exceptional conditions with select? (what are those be?) | ||||
# TODO if the response is loading, must we finish sending at all? | ||||
# | ||||
# Certainly not if it's going to close the connection and/or | ||||
# the response is already done...I think. | ||||
was_first = first | ||||
# incoming data | ||||
if r: | ||||
try: | ||||
data = r[0].recv(INCOMING_BUFFER_SIZE) | ||||
if not data: | ||||
logger.info('socket appears closed in read') | ||||
outgoing_headers = body = None | ||||
break | ||||
if response is None: | ||||
response = self.response_class(r[0], self.timeout) | ||||
response._load_response(data) | ||||
if (response._content_len == _LEN_CLOSE_IS_END | ||||
and len(data) == 0): | ||||
response._content_len = len(response._body) | ||||
if response.complete(): | ||||
w = [] | ||||
response.will_close = True | ||||
except socket.error, e: | ||||
if e[0] != errno.EPIPE and not was_first: | ||||
raise | ||||
if (response._content_len | ||||
and response._content_len != _LEN_CLOSE_IS_END): | ||||
outgoing_headers = sent_data + outgoing_headers | ||||
reconnect('read') | ||||
# outgoing data | ||||
if w and out: | ||||
try: | ||||
if getattr(out, 'read', False): | ||||
data = out.read(OUTGOING_BUFFER_SIZE) | ||||
if not data: | ||||
continue | ||||
if len(data) < OUTGOING_BUFFER_SIZE: | ||||
if chunked: | ||||
body = '0' + EOL + EOL | ||||
else: | ||||
body = None | ||||
if chunked: | ||||
out = hex(len(data))[2:] + EOL + data + EOL | ||||
else: | ||||
out = data | ||||
amt = w[0].send(out) | ||||
except socket.error, e: | ||||
if e[0] == socket.SSL_ERROR_WANT_WRITE and self.ssl: | ||||
# This means that SSL hasn't flushed its buffer into | ||||
# the socket yet. | ||||
# TODO: find a way to block on ssl flushing its buffer | ||||
# similar to selecting on a raw socket. | ||||
continue | ||||
elif (e[0] not in (errno.ECONNRESET, errno.EPIPE) | ||||
and not first): | ||||
raise | ||||
reconnect('write') | ||||
amt = self.sock.send(out) | ||||
logger.debug('sent %d', amt) | ||||
first = False | ||||
# stash data we think we sent in case the socket breaks | ||||
# when we read from it | ||||
if was_first: | ||||
sent_data = out[:amt] | ||||
if out is body: | ||||
body = out[amt:] | ||||
else: | ||||
outgoing_headers = out[amt:] | ||||
# close if the server response said to or responded before eating | ||||
# the whole request | ||||
if response is None: | ||||
response = self.response_class(self.sock, self.timeout) | ||||
complete = response.complete() | ||||
data_left = bool(outgoing_headers or body) | ||||
if data_left: | ||||
logger.info('stopped sending request early, ' | ||||
'will close the socket to be safe.') | ||||
response.will_close = True | ||||
if response.will_close: | ||||
# The socket will be closed by the response, so we disown | ||||
# the socket | ||||
self.sock = None | ||||
self._current_response = response | ||||
def getresponse(self): | ||||
if self._current_response is None: | ||||
raise httplib.ResponseNotReady() | ||||
r = self._current_response | ||||
while r.headers is None: | ||||
r._select() | ||||
Augie Fackler
|
r14293 | if r.will_close: | ||
Augie Fackler
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r14243 | self.sock = None | ||
self._current_response = None | ||||
Augie Fackler
|
r14293 | elif r.complete(): | ||
self._current_response = None | ||||
Augie Fackler
|
r14243 | else: | ||
self._current_response_taken = True | ||||
return r | ||||
class HTTPTimeoutException(httplib.HTTPException): | ||||
"""A timeout occurred while waiting on the server.""" | ||||
class BadRequestData(httplib.HTTPException): | ||||
"""Request body object has neither __len__ nor read.""" | ||||
class HTTPProxyConnectFailedException(httplib.HTTPException): | ||||
"""Connecting to the HTTP proxy failed.""" | ||||
# no-check-code | ||||