class HTTPS(HTTP):
"""HTTP protocol client class."""
def __init__(self, host, port=443, proxy=None):
"""Connection initialization
@param host: the host to connect to.
@type host: string
@param port: the port number to connect to
@type port: integer
@param proxy: proxy that we can use to connect
@type proxy: L{gnet.proxy.ProxyInfos}"""
HTTP.__init__(self, host, port)
assert(proxy is None or proxy.type == 'https')
self.__proxy = proxy
def _setup_transport(self):
if self._transport is None:
transport = SSLTCPClient(self._host, self._port)
if self.__proxy is not None:
print 'Using proxy : ', repr(self.__proxy)
self._transport = HTTPConnectProxy(transport, self.__proxy)
else:
self._transport = transport
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
class HTTPS(HTTP):
"""HTTP protocol client class."""
def __init__(self, host, port=443, proxy=None):
"""Connection initialization
@param host: the host to connect to.
@type host: string
@param port: the port number to connect to
@type port: integer
@param proxy: proxy that we can use to connect
@type proxy: L{gnet.proxy.ProxyInfos}"""
HTTP.__init__(self, host, port)
assert proxy is None or proxy.type == "https"
self.__proxy = proxy
def _setup_transport(self):
if self._transport is None:
transport = SSLTCPClient(self._host, self._port)
if self.__proxy is not None:
print "Using proxy : ", repr(self.__proxy)
self._transport = HTTPConnectProxy(transport, self.__proxy)
else:
self._transport = transport
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
def _setup_parser(self):
self._http_parser = HTTPParser(self._transport)
self._parser_handles.append(self._http_parser.connect("received",
self._on_response_received))
self._transport_handles.append(self._transport.connect("notify::status",
self._on_status_change))
self._transport_handles.append(self._transport.connect("error",
self._on_error))
self._transport_handles.append(self._transport.connect("sent",
self._on_request_sent))
def _setup_transport(self):
if self._transport is None:
if self.__proxy is not None:
self._transport = TCPClient(self.__proxy.host,
self.__proxy.port)
else:
self._transport = TCPClient(self._host, self._port)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
def __init__(self, client, proxy_infos):
assert (proxy_infos.type in (
'http',
'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert (client.domain == AF_INET
), "HTTP CONNECT only handles INET address family"
assert (client.type == SOCK_STREAM
), "HTTP CONNECT only handles SOCK_STREAM"
assert (client.status == IoStatus.CLOSED
), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
def __init__(self, client, proxy_infos):
assert(proxy_infos.type in ('http', 'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert(client.domain == AF_INET), "HTTP CONNECT only handles INET address family"
assert(client.type == SOCK_STREAM), "HTTP CONNECT only handles SOCK_STREAM"
assert(client.status == IoStatus.CLOSED), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
def _setup_transport(self):
if self._transport is None:
if self.__proxy is not None:
self._transport = TCPClient(self.__proxy.host, self.__proxy.port)
else:
self._transport = TCPClient(self._host, self._port)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
class HTTPConnectProxy(AbstractProxy):
def __init__(self, client, proxy_infos):
assert(proxy_infos.type in ('http', 'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert(client.domain == AF_INET), "HTTP CONNECT only handles INET address family"
assert(client.type == SOCK_STREAM), "HTTP CONNECT only handles SOCK_STREAM"
assert(client.status == IoStatus.CLOSED), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
# opening state methods
def _pre_open(self, io_object=None):
AbstractProxy._pre_open(self)
def _post_open(self):
AbstractProxy._post_open(self)
proxy_protocol = 'CONNECT %s:%s HTTP/1.1\r\n' % (self.host, self.port)
proxy_protocol += 'Proxy-Connection: Keep-Alive\r\n'
proxy_protocol += 'Pragma: no-cache\r\n'
proxy_protocol += 'User-Agent: %s/%s\r\n' % (GNet.NAME, GNet.VERSION)
if self._proxy.user:
auth = base64.encodestring(self._proxy.user + ':' + self._proxy.password).strip()
proxy_protocol += 'Proxy-authorization: Basic ' + auth + '\r\n'
proxy_protocol += '\r\n'
self._http_parser.enable()
self._transport.send(proxy_protocol)
# public API
@property
def protocol(self):
return "HTTPConnect"
def open(self):
"""Open the connection."""
if not self._configure():
return
self._pre_open()
try:
self._transport.open()
except:
pass
def close(self):
"""Close the connection."""
self._http_parser.disable()
self._client._proxy_closed()
self._transport.close()
def send(self, buffer, callback=None, errback=None):
self._client.send(buffer, callback, errback=None)
# callbacks and signal handlers
def _on_transport_status(self, transport, param):
if transport.status == IoStatus.OPEN:
self._post_open()
elif transport.status == IoStatus.OPENING:
self._client._proxy_opening(self._transport._transport)
self._status = transport.status
else:
self._status = transport.status
def _on_transport_error(self, transport, error):
self.close()
self.emit("error", error)
def _on_proxy_response(self, parser, response):
if self.status == IoStatus.OPENING:
if response.status == 200:
self._http_parser.disable()
self._transport.disable()
self._client._proxy_open()
elif response.status == 100:
return True
else:
logger.error("Connection failed (%s)" % response.status)
self.close()
self.emit("error", HTTPConnectError(self, response.status))
return False
class HTTP(gobject.GObject):
"""HTTP protocol client class."""
__gsignals__ = {
"error" : (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(object,)), # IoError
"response-received": (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(object,)), # HTTPResponse
"request-sent": (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(object,)), # HTTPRequest
}
def __init__(self, host, port=80, proxies={}):
"""Connection initialization
@param host: the host to connect to.
@type host: string
@param port: the port number to connect to
@type port: integer
@param proxies: proxies that we can use to connect
@type proxies: L{gnet.proxy.ProxyInfos}"""
gobject.GObject.__init__(self)
self._host = host
self._port = port
self._proxies = proxies
self._http_proxy = None
self._transport = None
self._http_parser = None
self._outgoing_queue = []
self._redirected = False
self._waiting_response = False
self._parser_handles = []
self._transport_handles = []
if self._proxies and self._proxies.get('http', None):
if self._proxies['http'].type == 'http':
self._http_proxy = self._proxies['http']
self._errored = False
self.connect("error", self._on_self_error)
def _on_self_error(self, *args):
self._errored = True
def _setup_transport(self):
if self._transport is None:
if self._http_proxy:
self._transport = TCPClient(self._http_proxy.host,
self._http_proxy.port)
else:
self._transport = TCPClient(self._host, self._port)
if self._proxies:
self._transport = ProxyFactory(self._transport,
self._proxies, 'http')
self._setup_parser()
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
def _setup_parser(self):
self._http_parser = HTTPParser(self._transport)
self._parser_handles.append(self._http_parser.connect("received",
self._on_response_received))
self._transport_handles.append(self._transport.connect("notify::status",
self._on_status_change))
self._transport_handles.append(self._transport.connect("error",
self._on_error))
self._transport_handles.append(self._transport.connect("sent",
self._on_request_sent))
def _clean_transport(self):
if self._http_parser:
self._http_parser.disable()
for handle in self._parser_handles:
self._http_parser.disconnect(handle)
self._http_parser = None
if self._transport:
for handle in self._transport_handles:
self._transport.disconnect(handle)
def _on_status_change(self, transport, param):
if transport.get_property("status") == IoStatus.OPEN:
self._process_queue()
elif transport.get_property("status") == IoStatus.CLOSED and\
(self._waiting_response or len(self._outgoing_queue) > 0) and\
not (self._errored or self._redirected):
self._waiting_response = False
self._setup_transport()
def _on_request_sent(self, transport, request, length):
self._waiting_response = True
assert(str(self._outgoing_queue[0]) == request)
self.emit("request-sent", self._outgoing_queue[0])
def _on_response_received(self, parser, response):
if response.status >= 100 and response.status < 200:
return
if not self._waiting_response:
logger.warning("Received response but wasn't waiting for one")
logger.warning("<<< " + str(response))
return
self._waiting_response = False
if response.status in (301, 302):
self.close()
location = response.headers['Location']
logger.info("Server moved to %s" % location)
logger.info("<<< " + str(response))
protocol, host, path, query, fragment = urlsplit(location)
self._redirected = True
self._outgoing_queue[0].headers['Host'] = host
try:
host, port = host.rsplit(":", 1)
port = int(port)
except (TypeError, ValueError):
port = None
self._host = host
self._redirected = False
self._setup_transport()
return
if len(self._outgoing_queue) > 0:
self._outgoing_queue.pop(0) # pop the request from the queue
if response.status >= 400:
logger.error("Received error code %i (%s) from %s:%i" %
(response.status, response.reason, self._host, self._port))
self.emit("error", HTTPError(response))
else:
self.emit("response-received", response)
self._process_queue() # next request ?
def _on_error(self, transport, error):
self.emit("error", error)
def _process_queue(self):
if len(self._outgoing_queue) == 0 or \
self._waiting_response: # no pipelining
return
if self._transport is None or \
self._transport.get_property("status") != IoStatus.OPEN:
self._setup_transport()
return
self._transport.send(str(self._outgoing_queue[0]))
def request(self, resource='/', headers=None, data='', method='GET'):
if headers is None:
headers = {}
headers['Host'] = self._host + ':' + str(self._port)
headers['Content-Length'] = str(len(data))
if 'User-Agent' not in headers:
user_agent = GNet.NAME, GNet.VERSION, platform.system(), platform.machine()
headers['User-Agent'] = "%s/%s (%s %s)" % user_agent
if self._http_proxy is not None:
url = 'http://%s:%d%s' % (self._host, self._port, resource)
if self._http_proxy.user:
auth = self._http_proxy.user + ':' + self._http_proxy.password
credentials = base64.encodestring(auth).strip()
headers['Proxy-Authorization'] = 'Basic ' + credentials
else:
url = resource
request = HTTPRequest(headers, data, method, url)
self._outgoing_queue.append(request)
self._process_queue()
def close(self):
self._clean_transport()
if self._transport:
self._transport.close()
self._transport = None
class HTTPConnectProxy(AbstractProxy):
def __init__(self, client, proxy_infos):
assert (proxy_infos.type in (
'http',
'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert (client.domain == AF_INET
), "HTTP CONNECT only handles INET address family"
assert (client.type == SOCK_STREAM
), "HTTP CONNECT only handles SOCK_STREAM"
assert (client.status == IoStatus.CLOSED
), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
# opening state methods
def _pre_open(self, io_object=None):
AbstractProxy._pre_open(self)
def _post_open(self):
AbstractProxy._post_open(self)
proxy_protocol = 'CONNECT %s:%s HTTP/1.1\r\n' % (self.host, self.port)
proxy_protocol += 'Proxy-Connection: Keep-Alive\r\n'
proxy_protocol += 'Pragma: no-cache\r\n'
proxy_protocol += 'User-Agent: %s/%s\r\n' % (GNet.NAME, GNet.VERSION)
if self._proxy.user:
auth = base64.encodestring(self._proxy.user + ':' +
self._proxy.password).strip()
proxy_protocol += 'Proxy-authorization: Basic ' + auth + '\r\n'
proxy_protocol += '\r\n'
self._http_parser.enable()
self._transport.send(proxy_protocol)
# public API
@property
def protocol(self):
return "HTTPConnect"
def open(self):
"""Open the connection."""
if not self._configure():
return
self._pre_open()
try:
self._transport.open()
except:
pass
def close(self):
"""Close the connection."""
self._http_parser.disable()
self._client._proxy_closed()
self._transport.close()
def send(self, buffer, callback=None, errback=None):
self._client.send(buffer, callback, errback=None)
# callbacks and signal handlers
def _on_transport_status(self, transport, param):
if transport.status == IoStatus.OPEN:
self._post_open()
elif transport.status == IoStatus.OPENING:
self._client._proxy_opening(self._transport._transport)
self._status = transport.status
else:
self._status = transport.status
def _on_transport_error(self, transport, error):
self.close()
self.emit("error", error)
def _on_proxy_response(self, parser, response):
if self.status == IoStatus.OPENING:
if response.status == 200:
self._http_parser.disable()
self._transport.disable()
self._client._proxy_open()
elif response.status == 100:
return True
else:
logger.error("Connection failed (%s)" % response.status)
self.close()
self.emit("error", HTTPConnectError(self, response.status))
return False
class HTTPConnectProxy(AbstractProxy):
def __init__(self, client, proxy_infos):
assert(proxy_infos.type in ('http', 'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert(client.domain == AF_INET), "HTTP CONNECT only handles INET address family"
assert(client.type == SOCK_STREAM), "HTTP CONNECT only handles SOCK_STREAM"
assert(client.status == IoStatus.CLOSED), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
# opening state methods
def _pre_open(self, io_object=None):
AbstractProxy._pre_open(self)
def _post_open(self):
AbstractProxy._post_open(self)
host = self._client.get_property("host")
port = self._client.get_property("port")
proxy_protocol = 'CONNECT %s:%s HTTP/1.1\r\n' % (host, port)
proxy_protocol += 'Proxy-Connection: Keep-Alive\r\n'
proxy_protocol += 'Pragma: no-cache\r\n'
proxy_protocol += 'User-Agent: %s/%s\r\n' % (GNet.NAME, GNet.VERSION)
if self._proxy.user:
auth = base64.encodestring(self._proxy.user + ':' + self._proxy.password).strip()
proxy_protocol += 'Proxy-authorization: Basic ' + auth + '\r\n'
proxy_protocol += '\r\n'
self._transport.send(proxy_protocol)
# public API
def open(self):
"""Open the connection."""
if not self._configure():
return
self._pre_open()
try:
self._transport.open()
except:
pass
def close(self):
"""Close the connection."""
self._client._proxy_closed()
def send(self, buffer, callback=None, *args):
self._client.send(buffer, callback, *args)
# callbacks and signal handlers
def _on_transport_status(self, transport, param):
if transport.status == IoStatus.OPEN:
self._post_open()
elif transport.status == IoStatus.OPENING:
self._client._proxy_opening(self._transport._transport)
self._status = transport.status
else:
self._status = transport.status
def _on_transport_error(self, transport, error_code):
if error_code == IoError.CONNECTION_FAILED:
error_code = IoError.PROXY_CONNECTION_FAILED
self.close()
self.emit("error", error_code)
def _on_proxy_response(self, parser, response):
if self.status == IoStatus.OPENING:
if response.status == 200:
del self._http_parser
self._transport._watch_remove() # HACK: ok this is ugly !
self._client._proxy_open()
elif response.status == 100:
return True
elif response.status == 407:
self.close()
self.emit("error", IoError.PROXY_AUTHENTICATION_REQUIRED)
else:
raise NotImplementedError("Unknown Proxy response code")
return False
class HTTP(gobject.GObject):
"""HTTP protocol client class."""
__gsignals__ = {
"error" : (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(gobject.TYPE_ULONG,)),
"response-received": (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(object,)), # HTTPResponse
"request-sent": (gobject.SIGNAL_RUN_FIRST,
gobject.TYPE_NONE,
(object,)), # HTTPRequest
}
def __init__(self, host, port=80, proxy=None):
"""Connection initialization
@param host: the host to connect to.
@type host: string
@param port: the port number to connect to
@type port: integer
@param proxy: proxy that we can use to connect
@type proxy: L{gnet.proxy.ProxyInfos}"""
gobject.GObject.__init__(self)
assert(proxy is None or proxy.type == 'http') # TODO: add support for other proxies (socks4 and 5)
self._host = host
self._port = port
self.__proxy = proxy
self._transport = None
self._http_parser = None
self._outgoing_queue = []
self._waiting_response = False
def _setup_transport(self):
if self._transport is None:
if self.__proxy is not None:
self._transport = TCPClient(self.__proxy.host, self.__proxy.port)
else:
self._transport = TCPClient(self._host, self._port)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
def _on_status_change(self, transport, param):
if transport.get_property("status") == IoStatus.OPEN:
self._process_queue()
elif transport.get_property("status") == IoStatus.CLOSED and\
(self._waiting_response or len(self._outgoing_queue) > 0):
self._waiting_response = False
self._setup_transport()
def _on_request_sent(self, transport, request, length):
assert(str(self._outgoing_queue[0]) == request)
self._waiting_response = True
self.emit("request-sent", self._outgoing_queue[0])
def _on_response_received(self, parser, response):
if response.status >= 100 and response.status < 200:
return
#if response.status in (301, 302): # UNTESTED: please test
# location = response.headers['Location']
# location = location.rsplit("://", 1)
# if len(location) == 2:
# scheme = location[0]
# location = location[1]
# if scheme == "http":
# location = location.rsplit(":", 1)
# self._host = location[0]
# if len(location) == 2:
# self._port = int(location[1])
# self._outgoing_queue[0].headers['Host'] = response.headers['Location']
# self._setup_transport()
# return
self._outgoing_queue.pop(0) # pop the request from the queue
self.emit("response-received", response)
self._waiting_response = False
self._process_queue() # next request ?
def _on_error(self, transport, error):
self.emit("error", error)
def _process_queue(self):
if len(self._outgoing_queue) == 0 or \
self._waiting_response: # no pipelining
return
if self._transport is None or \
self._transport.get_property("status") != IoStatus.OPEN:
self._setup_transport()
return
self._transport.send(str(self._outgoing_queue[0]))
def request(self, resource='/', headers=None, data='', method='GET'):
if headers is None:
headers = {}
headers['Host'] = self._host + ':' + str(self._port)
headers['Content-Length'] = str(len(data))
if 'User-Agent' not in headers:
user_agent = GNet.NAME, GNet.VERSION, platform.system(), platform.machine()
headers['User-Agent'] = "%s/%s (%s %s)" % user_agent
if self.__proxy is not None:
url = 'http://%s:%d%s' % (self._host, self._port, resource)
if self.__proxy.user:
auth = self.__proxy.user + ':' + self.__proxy.password
credentials = base64.encodestring(auth).strip()
headers['Proxy-Authorization'] = 'Basic ' + credentials
else:
url = resource
request = HTTPRequest(headers, data, method, url)
self._outgoing_queue.append(request)
self._process_queue()
class HTTP(gobject.GObject):
"""HTTP protocol client class."""
__gsignals__ = {
"error":
(gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, (gobject.TYPE_ULONG, )),
"response-received": (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE,
(object, )), # HTTPResponse
"request-sent": (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE,
(object, )), # HTTPRequest
}
def __init__(self, host, port=80, proxy=None):
"""Connection initialization
@param host: the host to connect to.
@type host: string
@param port: the port number to connect to
@type port: integer
@param proxy: proxy that we can use to connect
@type proxy: L{gnet.proxy.ProxyInfos}"""
gobject.GObject.__init__(self)
assert (proxy is None or proxy.type == 'http'
) # TODO: add support for other proxies (socks4 and 5)
self._host = host
self._port = port
self.__proxy = proxy
self._transport = None
self._http_parser = None
self._outgoing_queue = []
self._waiting_response = False
def _setup_transport(self):
if self._transport is None:
if self.__proxy is not None:
self._transport = TCPClient(self.__proxy.host,
self.__proxy.port)
else:
self._transport = TCPClient(self._host, self._port)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_response_received)
self._transport.connect("notify::status", self._on_status_change)
self._transport.connect("error", self._on_error)
self._transport.connect("sent", self._on_request_sent)
if self._transport.get_property("status") != IoStatus.OPEN:
self._transport.open()
def _on_status_change(self, transport, param):
if transport.get_property("status") == IoStatus.OPEN:
self._process_queue()
elif transport.get_property("status") == IoStatus.CLOSED and\
(self._waiting_response or len(self._outgoing_queue) > 0):
self._waiting_response = False
self._setup_transport()
def _on_request_sent(self, transport, request, length):
assert (str(self._outgoing_queue[0]) == request)
self._waiting_response = True
self.emit("request-sent", self._outgoing_queue[0])
def _on_response_received(self, parser, response):
if response.status >= 100 and response.status < 200:
return
#if response.status in (301, 302): # UNTESTED: please test
# location = response.headers['Location']
# location = location.rsplit("://", 1)
# if len(location) == 2:
# scheme = location[0]
# location = location[1]
# if scheme == "http":
# location = location.rsplit(":", 1)
# self._host = location[0]
# if len(location) == 2:
# self._port = int(location[1])
# self._outgoing_queue[0].headers['Host'] = response.headers['Location']
# self._setup_transport()
# return
self._outgoing_queue.pop(0) # pop the request from the queue
self.emit("response-received", response)
self._waiting_response = False
self._process_queue() # next request ?
def _on_error(self, transport, error):
self.emit("error", error)
def _process_queue(self):
if len(self._outgoing_queue) == 0 or \
self._waiting_response: # no pipelining
return
if self._transport is None or \
self._transport.get_property("status") != IoStatus.OPEN:
self._setup_transport()
return
self._transport.send(str(self._outgoing_queue[0]))
def request(self, resource='/', headers=None, data='', method='GET'):
if headers is None:
headers = {}
headers['Host'] = self._host + ':' + str(self._port)
headers['Content-Length'] = str(len(data))
if 'User-Agent' not in headers:
user_agent = GNet.NAME, GNet.VERSION, platform.system(
), platform.machine()
headers['User-Agent'] = "%s/%s (%s %s)" % user_agent
if self.__proxy is not None:
url = 'http://%s:%d%s' % (self._host, self._port, resource)
if self.__proxy.user:
auth = self.__proxy.user + ':' + self.__proxy.password
credentials = base64.encodestring(auth).strip()
headers['Proxy-Authorization'] = 'Basic ' + credentials
else:
url = resource
request = HTTPRequest(headers, data, method, url)
self._outgoing_queue.append(request)
self._process_queue()
class HTTPConnectProxy(AbstractProxy):
def __init__(self, client, proxy_infos):
assert (proxy_infos.type in (
'http',
'https')), "HTTPConnectProxy expects an http(s) proxy description"
assert (client.domain == AF_INET
), "HTTP CONNECT only handles INET address family"
assert (client.type == SOCK_STREAM
), "HTTP CONNECT only handles SOCK_STREAM"
assert (client.status == IoStatus.CLOSED
), "HTTPConnectProxy expects a closed client"
AbstractProxy.__init__(self, client, proxy_infos)
self._transport = TCPClient(self._proxy.host, self._proxy.port)
self._transport.connect("notify::status", self._on_transport_status)
self._transport.connect("error", self._on_transport_error)
self._http_parser = HTTPParser(self._transport)
self._http_parser.connect("received", self._on_proxy_response)
# opening state methods
def _pre_open(self, io_object=None):
AbstractProxy._pre_open(self)
def _post_open(self):
AbstractProxy._post_open(self)
host = self._client.get_property("host")
port = self._client.get_property("port")
proxy_protocol = 'CONNECT %s:%s HTTP/1.1\r\n' % (host, port)
proxy_protocol += 'Proxy-Connection: Keep-Alive\r\n'
proxy_protocol += 'Pragma: no-cache\r\n'
proxy_protocol += 'User-Agent: %s/%s\r\n' % (GNet.NAME, GNet.VERSION)
if self._proxy.user:
auth = base64.encodestring(self._proxy.user + ':' +
self._proxy.password).strip()
proxy_protocol += 'Proxy-authorization: Basic ' + auth + '\r\n'
proxy_protocol += '\r\n'
self._transport.send(proxy_protocol)
# public API
def open(self):
"""Open the connection."""
if not self._configure():
return
self._pre_open()
try:
self._transport.open()
except:
pass
def close(self):
"""Close the connection."""
self._client._proxy_closed()
def send(self, buffer, callback=None, *args):
self._client.send(buffer, callback, *args)
# callbacks and signal handlers
def _on_transport_status(self, transport, param):
if transport.status == IoStatus.OPEN:
self._post_open()
elif transport.status == IoStatus.OPENING:
self._client._proxy_opening(self._transport._transport)
self._status = transport.status
else:
self._status = transport.status
def _on_transport_error(self, transport, error_code):
if error_code == IoError.CONNECTION_FAILED:
error_code = IoError.PROXY_CONNECTION_FAILED
self.close()
self.emit("error", error_code)
def _on_proxy_response(self, parser, response):
if self.status == IoStatus.OPENING:
if response.status == 200:
del self._http_parser
self._transport._watch_remove() # HACK: ok this is ugly !
self._client._proxy_open()
elif response.status == 100:
return True
elif response.status == 407:
self.close()
self.emit("error", IoError.PROXY_AUTHENTICATION_REQUIRED)
else:
raise NotImplementedError("Unknown Proxy response code")
return False
