import urllib2 as urllib_error
import json
from ssl import SSLError
+import socket
+import sys, select, time
+
+from .api import TwitterCall, wrap_response, TwitterHTTPError
+
+def recv_chunk(sock): # -> bytearray:
+
+ buf = sock.recv(8) # Scan for an up to 16MiB chunk size (0xffffff).
+ crlf = buf.find(b'\r\n') # Find the HTTP chunk size.
+
+ if crlf > 0: # If there is a length, then process it
+
+ remaining = int(buf[:crlf], 16) # Decode the chunk size.
+
+ start = crlf + 2 # Add in the length of the header's CRLF pair.
+ end = len(buf) - start
+
+ chunk = bytearray(remaining)
+
+ if remaining <= 2: # E.g. an HTTP chunk with just a keep-alive delimiter.
+ chunk[:remaining] = buf[start:start + remaining]
+ # There are several edge cases (remaining == [3-6]) as the chunk size exceeds the length
+ # of the initial read of 8 bytes. With Twitter, these do not, in practice, occur. The
+ # shortest JSON message starts with '{"limit":{'. Hence, it exceeds in size the edge cases
+ # and eliminates the need to address them.
+ else: # There is more to read in the chunk.
+ chunk[:end] = buf[start:]
+ chunk[end:] = sock.recv(remaining - end)
+ sock.recv(2) # Read the trailing CRLF pair. Throw it away.
+
+ return chunk
+
+ return bytearray()
+
+## recv_chunk()
-from .api import TwitterCall, wrap_response
class TwitterJSONIter(object):
- def __init__(self, handle, uri, arg_data, block=True):
- self.decoder = json.JSONDecoder()
+ def __init__(self, handle, uri, arg_data, block=True, timeout=None):
self.handle = handle
- self.buf = b""
+ self.uri = uri
+ self.arg_data = arg_data
self.block = block
+ self.timeout = timeout
+
def __iter__(self):
- sock = self.handle.fp._sock.fp._sock
- if not self.block:
- sock.setblocking(False)
+ sock = self.handle.fp.raw._sock if sys.version_info >= (3, 0) else self.handle.fp._sock.fp._sock
+ sock.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
+ sock.setblocking(self.block and not self.timeout)
+ buf = u''
+ json_decoder = json.JSONDecoder()
+ timer = time.time()
while True:
try:
- utf8_buf = self.buf.decode('utf8').lstrip()
- res, ptr = self.decoder.raw_decode(utf8_buf)
- self.buf = utf8_buf[ptr:].encode('utf8')
+ buf = buf.lstrip()
+ res, ptr = json_decoder.raw_decode(buf)
+ buf = buf[ptr:]
yield wrap_response(res, self.handle.headers)
+ timer = time.time()
continue
except ValueError as e:
- if self.block:
- pass
- else:
- yield None
- except urllib_error.HTTPError as e:
- raise TwitterHTTPError(e, uri, self.format, arg_data)
- # this is a non-blocking read (ie, it will return if any data is available)
+ if self.block: pass
+ else: yield None
try:
- self.buf += sock.recv(1024)
- except SSLError as e:
- if (not self.block) and (e.errno == 2):
- # Apparently this means there was nothing in the socket buf
- pass
+ buf = buf.lstrip() # Remove any keep-alive delimiters to detect hangups.
+ if self.timeout:
+ ready_to_read = select.select([sock], [], [], self.timeout)
+ if ready_to_read[0]:
+ buf += recv_chunk(sock).decode('utf-8') # This is a non-blocking read.
+ if time.time() - timer > self.timeout:
+ yield {'timeout': True}
+ else: yield {'timeout': True}
else:
- raise
+ buf += recv_chunk(sock).decode('utf-8')
+ if not buf and self.block:
+ yield {'hangup': True}
+ except SSLError as e:
+ # Error from a non-blocking read of an empty buffer.
+ if (not self.block or self.timeout) and (e.errno == 2): pass
+ else: raise
+
+def handle_stream_response(req, uri, arg_data, block, timeout=None):
+ try:
+ handle = urllib_request.urlopen(req,)
+ except urllib_error.HTTPError as e:
+ raise TwitterHTTPError(e, uri, 'json', arg_data)
+ return iter(TwitterJSONIter(handle, uri, arg_data, block, timeout=timeout))
-def handle_stream_response(req, uri, arg_data, block):
- handle = urllib_request.urlopen(req,)
- return iter(TwitterJSONIter(handle, uri, arg_data, block))
+class TwitterStreamCallWithTimeout(TwitterCall):
+ def _handle_response(self, req, uri, arg_data, _timeout=None):
+ return handle_stream_response(req, uri, arg_data, block=True, timeout=self.timeout)
class TwitterStreamCall(TwitterCall):
- def _handle_response(self, req, uri, arg_data):
+ def _handle_response(self, req, uri, arg_data, _timeout=None):
return handle_stream_response(req, uri, arg_data, block=True)
class TwitterStreamCallNonBlocking(TwitterCall):
- def _handle_response(self, req, uri, arg_data):
+ def _handle_response(self, req, uri, arg_data, _timeout=None):
return handle_stream_response(req, uri, arg_data, block=False)
class TwitterStream(TwitterStreamCall):
"""
- Interface to the Twitter Stream API (stream.twitter.com). This can
- be used pretty much the same as the Twitter class except the
- result of calling a method will be an iterator that yields objects
- decoded from the stream. For example::
+ The TwitterStream object is an interface to the Twitter Stream API
+ (stream.twitter.com). This can be used pretty much the same as the
+ Twitter class except the result of calling a method will be an
+ iterator that yields objects decoded from the stream. For
+ example::
- twitter_stream = TwitterStream(auth=UserPassAuth('joe', 'joespassword'))
+ twitter_stream = TwitterStream(auth=OAuth(...))
iterator = twitter_stream.statuses.sample()
for tweet in iterator:
"""
def __init__(
self, domain="stream.twitter.com", secure=True, auth=None,
- api_version='1', block=True):
+ api_version='1.1', block=True, timeout=None):
uriparts = ()
uriparts += (str(api_version),)
if block:
- call_cls = TwitterStreamCall
+ if timeout:
+ call_cls = TwitterStreamCallWithTimeout
+ else:
+ call_cls = TwitterStreamCall
else:
call_cls = TwitterStreamCallNonBlocking
TwitterStreamCall.__init__(
self, auth=auth, format="json", domain=domain,
callable_cls=call_cls,
- secure=secure, uriparts=uriparts)
+ secure=secure, uriparts=uriparts, timeout=timeout, gzip=False)