Merge pull request #1553 from croneter/py3-fix-websocket

Bump websocket client: fix AttributeError: 'NoneType' object has no attribute 'is_ssl'
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croneter 2021-07-25 10:57:42 +02:00 committed by GitHub
commit cbcc4d1a74
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17 changed files with 196 additions and 1510 deletions

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@ -25,4 +25,4 @@ from ._exceptions import *
from ._logging import *
from ._socket import *
__version__ = "1.0.0"
__version__ = "1.1.0"

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@ -25,30 +25,31 @@ Copyright (C) 2010 Hiroki Ohtani(liris)
import array
import os
import struct
import sys
from ._exceptions import *
from ._utils import validate_utf8
from threading import Lock
try:
import numpy
except ImportError:
numpy = None
# If wsaccel is available, use compiled routines to mask data.
# wsaccel only provides around a 10% speed boost compared
# to the websocket-client _mask() implementation.
# Note that wsaccel is unmaintained.
from wsaccel.xormask import XorMaskerSimple
try:
# If wsaccel is available we use compiled routines to mask data.
if not numpy:
from wsaccel.xormask import XorMaskerSimple
def _mask(_m, _d):
return XorMaskerSimple(_m).process(_d)
except ImportError:
# wsaccel is not available, we rely on python implementations.
def _mask(_m, _d):
for i in range(len(_d)):
_d[i] ^= _m[i % 4]
return XorMaskerSimple(_m).process(_d)
return _d.tobytes()
except ImportError:
# wsaccel is not available, use websocket-client _mask()
native_byteorder = sys.byteorder
def _mask(mask_value, data_value):
datalen = len(data_value)
data_value = int.from_bytes(data_value, native_byteorder)
mask_value = int.from_bytes(mask_value * (datalen // 4) + mask_value[: datalen % 4], native_byteorder)
return (data_value ^ mask_value).to_bytes(datalen, native_byteorder)
__all__ = [
@ -266,19 +267,7 @@ class ABNF(object):
if isinstance(data, str):
data = data.encode('latin-1')
if numpy:
origlen = len(data)
_mask_key = mask_key[3] << 24 | mask_key[2] << 16 | mask_key[1] << 8 | mask_key[0]
# We need data to be a multiple of four...
data += b' ' * (4 - (len(data) % 4))
a = numpy.frombuffer(data, dtype="uint32")
masked = numpy.bitwise_xor(a, [_mask_key]).astype("uint32")
if len(data) > origlen:
return masked.tobytes()[:origlen]
return masked.tobytes()
else:
return _mask(array.array("B", mask_key), array.array("B", data))
return _mask(array.array("B", mask_key), array.array("B", data))
class frame_buffer(object):
@ -374,7 +363,7 @@ class frame_buffer(object):
return frame
def recv_strict(self, bufsize):
shortage = bufsize - sum(len(x) for x in self.recv_buffer)
shortage = bufsize - sum(map(len, self.recv_buffer))
while shortage > 0:
# Limit buffer size that we pass to socket.recv() to avoid
# fragmenting the heap -- the number of bytes recv() actually

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@ -105,52 +105,56 @@ class WebSocketApp(object):
Parameters
----------
url: <type>
websocket url.
url: str
Websocket url.
header: list or dict
custom header for websocket handshake.
on_open: <type>
callable object which is called at opening websocket.
this function has one argument. The argument is this class object.
on_message: <type>
callable object which is called when received data.
Custom header for websocket handshake.
on_open: function
Callback object which is called at opening websocket.
on_open has one argument.
The 1st argument is this class object.
on_message: function
Callback object which is called when received data.
on_message has 2 arguments.
The 1st argument is this class object.
The 2nd argument is utf-8 string which we get from the server.
on_error: <type>
callable object which is called when we get error.
The 2nd argument is utf-8 data received from the server.
on_error: function
Callback object which is called when we get error.
on_error has 2 arguments.
The 1st argument is this class object.
The 2nd argument is exception object.
on_close: <type>
callable object which is called when closed the connection.
this function has one argument. The argument is this class object.
on_cont_message: <type>
callback object which is called when receive continued
frame data.
on_close: function
Callback object which is called when connection is closed.
on_close has 3 arguments.
The 1st argument is this class object.
The 2nd argument is close_status_code.
The 3rd argument is close_msg.
on_cont_message: function
Callback object which is called when a continuation
frame is received.
on_cont_message has 3 arguments.
The 1st argument is this class object.
The 2nd argument is utf-8 string which we get from the server.
The 3rd argument is continue flag. if 0, the data continue
to next frame data
on_data: <type>
callback object which is called when a message received.
on_data: function
Callback object which is called when a message received.
This is called before on_message or on_cont_message,
and then on_message or on_cont_message is called.
on_data has 4 argument.
The 1st argument is this class object.
The 2nd argument is utf-8 string which we get from the server.
The 3rd argument is data type. ABNF.OPCODE_TEXT or ABNF.OPCODE_BINARY will be came.
The 4th argument is continue flag. if 0, the data continue
keep_running: <type>
this parameter is obsolete and ignored.
get_mask_key: func
a callable to produce new mask keys,
see the WebSocket.set_mask_key's docstring for more information
The 4th argument is continue flag. If 0, the data continue
keep_running: bool
This parameter is obsolete and ignored.
get_mask_key: function
A callable function to get new mask keys, see the
WebSocket.set_mask_key's docstring for more information.
cookie: str
cookie value.
subprotocols: <type>
array of available sub protocols. default is None.
Cookie value.
subprotocols: list
List of available sub protocols. Default is None.
"""
self.url = url
self.header = header if header is not None else []
@ -177,11 +181,11 @@ class WebSocketApp(object):
Parameters
----------
data: <type>
data: str
Message to send. If you set opcode to OPCODE_TEXT,
data must be utf-8 string or unicode.
opcode: <type>
Operation code of data. default is OPCODE_TEXT.
opcode: int
Operation code of data. Default is OPCODE_TEXT.
"""
if not self.sock or self.sock.send(data, opcode) == 0:
@ -214,8 +218,7 @@ class WebSocketApp(object):
http_no_proxy=None, http_proxy_auth=None,
skip_utf8_validation=False,
host=None, origin=None, dispatcher=None,
suppress_origin=False, proxy_type=None,
enable_multithread=True):
suppress_origin=False, proxy_type=None):
"""
Run event loop for WebSocket framework.
@ -224,32 +227,32 @@ class WebSocketApp(object):
Parameters
----------
sockopt: tuple
values for socket.setsockopt.
Values for socket.setsockopt.
sockopt must be tuple
and each element is argument of sock.setsockopt.
sslopt: dict
optional dict object for ssl socket option.
Optional dict object for ssl socket option.
ping_interval: int or float
automatically send "ping" command
every specified period (in seconds)
if set to 0, not send automatically.
Automatically send "ping" command
every specified period (in seconds).
If set to 0, no ping is sent periodically.
ping_timeout: int or float
timeout (in seconds) if the pong message is not received.
Timeout (in seconds) if the pong message is not received.
ping_payload: str
payload message to send with each ping.
http_proxy_host: <type>
http proxy host name.
http_proxy_port: <type>
http proxy port. If not set, set to 80.
http_no_proxy: <type>
host names, which doesn't use proxy.
Payload message to send with each ping.
http_proxy_host: str
HTTP proxy host name.
http_proxy_port: int or str
HTTP proxy port. If not set, set to 80.
http_no_proxy: list
Whitelisted host names that don't use the proxy.
skip_utf8_validation: bool
skip utf8 validation.
host: str
update host header.
origin: str
update origin header.
dispatcher: <type>
dispatcher: Dispatcher object
customize reading data from socket.
suppress_origin: bool
suppress outputting origin header.
@ -281,8 +284,11 @@ class WebSocketApp(object):
"""
Tears down the connection.
If close_frame is set, we will invoke the on_close handler with the
statusCode and reason from there.
Parameters
----------
close_frame: ABNF frame
If close_frame is set, the on_close handler is invoked
with the statusCode and reason from the provided frame.
"""
if thread and thread.is_alive():
@ -301,7 +307,7 @@ class WebSocketApp(object):
self.get_mask_key, sockopt=sockopt, sslopt=sslopt,
fire_cont_frame=self.on_cont_message is not None,
skip_utf8_validation=skip_utf8_validation,
enable_multithread=enable_multithread)
enable_multithread=True)
self.sock.settimeout(getdefaulttimeout())
self.sock.connect(
self.url, header=self.header, cookie=self.cookie,

View file

@ -62,30 +62,31 @@ class WebSocket(object):
Parameters
----------
get_mask_key: func
a callable to produce new mask keys, see the set_mask_key
function's docstring for more details
A callable function to get new mask keys, see the
WebSocket.set_mask_key's docstring for more information.
sockopt: tuple
values for socket.setsockopt.
Values for socket.setsockopt.
sockopt must be tuple and each element is argument of sock.setsockopt.
sslopt: dict
optional dict object for ssl socket option.
Optional dict object for ssl socket options.
fire_cont_frame: bool
fire recv event for each cont frame. default is False
Fire recv event for each cont frame. Default is False.
enable_multithread: bool
if set to True, lock send method.
If set to True, lock send method.
skip_utf8_validation: bool
skip utf8 validation.
Skip utf8 validation.
"""
def __init__(self, get_mask_key=None, sockopt=None, sslopt=None,
fire_cont_frame=False, enable_multithread=False,
fire_cont_frame=False, enable_multithread=True,
skip_utf8_validation=False, **_):
"""
Initialize WebSocket object.
Parameters
----------
sslopt: specify ssl certification verification options
sslopt: dict
Optional dict object for ssl socket options.
"""
self.sock_opt = sock_opt(sockopt, sslopt)
self.handshake_response = None
@ -194,7 +195,10 @@ class WebSocket(object):
return None
def is_ssl(self):
return isinstance(self.sock, ssl.SSLSocket)
try:
return isinstance(self.sock, ssl.SSLSocket)
except:
return False
headers = property(getheaders)
@ -210,40 +214,38 @@ class WebSocket(object):
... header=["User-Agent: MyProgram",
... "x-custom: header"])
timeout: <type>
socket timeout time. This value is an integer or float.
if you set None for this value, it means "use default_timeout value"
Parameters
----------
options:
- header: list or dict
custom http header list or dict.
- cookie: str
cookie value.
- origin: str
custom origin url.
- connection: str
custom connection header value.
default value "Upgrade" set in _handshake.py
- suppress_origin: bool
suppress outputting origin header.
- host: str
custom host header string.
- http_proxy_host: <type>
http proxy host name.
- http_proxy_port: <type>
http proxy port. If not set, set to 80.
- http_no_proxy: <type>
host names, which doesn't use proxy.
- http_proxy_auth: <type>
http proxy auth information. tuple of username and password. default is None
- redirect_limit: <type>
number of redirects to follow.
- subprotocols: <type>
array of available sub protocols. default is None.
- socket: <type>
pre-initialized stream socket.
header: list or dict
Custom http header list or dict.
cookie: str
Cookie value.
origin: str
Custom origin url.
connection: str
Custom connection header value.
Default value "Upgrade" set in _handshake.py
suppress_origin: bool
Suppress outputting origin header.
host: str
Custom host header string.
timeout: int or float
Socket timeout time. This value is an integer or float.
If you set None for this value, it means "use default_timeout value"
http_proxy_host: str
HTTP proxy host name.
http_proxy_port: str or int
HTTP proxy port. Default is 80.
http_no_proxy: list
Whitelisted host names that don't use the proxy.
http_proxy_auth: tuple
HTTP proxy auth information. Tuple of username and password. Default is None.
redirect_limit: int
Number of redirects to follow.
subprotocols: list
List of available subprotocols. Default is None.
socket: socket
Pre-initialized stream socket.
"""
self.sock_opt.timeout = options.get('timeout', self.sock_opt.timeout)
self.sock, addrs = connect(url, self.sock_opt, proxy_info(**options),
@ -271,12 +273,12 @@ class WebSocket(object):
Parameters
----------
payload: str
Payload must be utf-8 string or unicode,
if the opcode is OPCODE_TEXT.
Otherwise, it must be string(byte array)
opcode: int
operation code to send. Please see OPCODE_XXX.
payload: str
Payload must be utf-8 string or unicode,
If the opcode is OPCODE_TEXT.
Otherwise, it must be string(byte array).
opcode: int
Operation code (opcode) to send.
"""
frame = ABNF.create_frame(payload, opcode)
@ -440,10 +442,10 @@ class WebSocket(object):
Parameters
----------
status: <type>
status code to send. see STATUS_XXX.
status: int
Status code to send. See STATUS_XXX.
reason: str or bytes
the reason to close. This must be string or bytes.
The reason to close. This must be string or bytes.
"""
if status < 0 or status >= ABNF.LENGTH_16:
raise ValueError("code is invalid range")
@ -457,11 +459,11 @@ class WebSocket(object):
Parameters
----------
status: int
status code to send. see STATUS_XXX.
Status code to send. See STATUS_XXX.
reason: bytes
the reason to close.
The reason to close.
timeout: int or float
timeout until receive a close frame.
Timeout until receive a close frame.
If None, it will wait forever until receive a close frame.
"""
if self.connected:
@ -490,10 +492,8 @@ class WebSocket(object):
break
self.sock.settimeout(sock_timeout)
self.sock.shutdown(socket.SHUT_RDWR)
except OSError: # This happens often on Mac
pass
except:
raise
pass
self.shutdown()
@ -544,52 +544,51 @@ def create_connection(url, timeout=None, class_=WebSocket, **options):
Parameters
----------
class_: class
class to instantiate when creating the connection. It has to implement
settimeout and connect. It's __init__ should be compatible with
WebSocket.__init__, i.e. accept all of it's kwargs.
header: list or dict
custom http header list or dict.
cookie: str
Cookie value.
origin: str
custom origin url.
suppress_origin: bool
suppress outputting origin header.
host: str
custom host header string.
timeout: int or float
socket timeout time. This value could be either float/integer.
if you set None for this value,
it means "use default_timeout value"
class_: <type>
class to instantiate when creating the connection. It has to implement
settimeout and connect. It's __init__ should be compatible with
WebSocket.__init__, i.e. accept all of it's kwargs.
options: <type>
- header: list or dict
custom http header list or dict.
- cookie: str
cookie value.
- origin: str
custom origin url.
- suppress_origin: bool
suppress outputting origin header.
- host: <type>
custom host header string.
- http_proxy_host: <type>
http proxy host name.
- http_proxy_port: <type>
http proxy port. If not set, set to 80.
- http_no_proxy: <type>
host names, which doesn't use proxy.
- http_proxy_auth: <type>
http proxy auth information. tuple of username and password. default is None
- enable_multithread: bool
enable lock for multithread.
- redirect_limit: <type>
number of redirects to follow.
- sockopt: <type>
socket options
- sslopt: <type>
ssl option
- subprotocols: <type>
array of available sub protocols. default is None.
- skip_utf8_validation: bool
skip utf8 validation.
- socket: <type>
pre-initialized stream socket.
socket timeout time. This value could be either float/integer.
If set to None, it uses the default_timeout value.
http_proxy_host: str
HTTP proxy host name.
http_proxy_port: str or int
HTTP proxy port. If not set, set to 80.
http_no_proxy: list
Whitelisted host names that don't use the proxy.
http_proxy_auth: tuple
HTTP proxy auth information. tuple of username and password. Default is None.
enable_multithread: bool
Enable lock for multithread.
redirect_limit: int
Number of redirects to follow.
sockopt: tuple
Values for socket.setsockopt.
sockopt must be a tuple and each element is an argument of sock.setsockopt.
sslopt: dict
Optional dict object for ssl socket options.
subprotocols: list
List of available subprotocols. Default is None.
skip_utf8_validation: bool
Skip utf8 validation.
socket: socket
Pre-initialized stream socket.
"""
sockopt = options.pop("sockopt", [])
sslopt = options.pop("sslopt", {})
fire_cont_frame = options.pop("fire_cont_frame", False)
enable_multithread = options.pop("enable_multithread", False)
enable_multithread = options.pop("enable_multithread", True)
skip_utf8_validation = options.pop("skip_utf8_validation", False)
websock = class_(sockopt=sockopt, sslopt=sslopt,
fire_cont_frame=fire_cont_frame,

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@ -79,7 +79,7 @@ def _open_proxied_socket(url, options, proxy):
(hostname, port),
proxy_type=ptype,
proxy_addr=proxy.host,
proxy_port=proxy.port,
proxy_port=int(proxy.port),
proxy_rdns=rdns,
proxy_username=proxy.auth[0] if proxy.auth else None,
proxy_password=proxy.auth[1] if proxy.auth else None,
@ -200,7 +200,7 @@ def _open_socket(addrinfo_list, sockopt, timeout):
def _wrap_sni_socket(sock, sslopt, hostname, check_hostname):
context = ssl.SSLContext(sslopt.get('ssl_version', ssl.PROTOCOL_SSLv23))
context = ssl.SSLContext(sslopt.get('ssl_version', ssl.PROTOCOL_TLS))
if sslopt.get('cert_reqs', ssl.CERT_NONE) != ssl.CERT_NONE:
cafile = sslopt.get('ca_certs', None)
@ -248,6 +248,9 @@ def _ssl_socket(sock, user_sslopt, hostname):
and user_sslopt.get('ca_cert_path', None) is None:
sslopt['ca_cert_path'] = certPath
if sslopt.get('server_hostname', None):
hostname = sslopt['server_hostname']
check_hostname = sslopt["cert_reqs"] != ssl.CERT_NONE and sslopt.pop(
'check_hostname', True)
sock = _wrap_sni_socket(sock, sslopt, hostname, check_hostname)

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@ -125,7 +125,7 @@ def recv(sock, bufsize):
if not bytes_:
raise WebSocketConnectionClosedException(
"Connection is already closed.")
"Connection to remote host was lost.")
return bytes_

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@ -26,7 +26,7 @@ import os
import socket
import struct
from urllib.parse import urlparse
from urllib.parse import unquote, urlparse
__all__ = ["parse_url", "get_proxy_info"]
@ -109,7 +109,7 @@ def _is_address_in_network(ip, net):
def _is_no_proxy_host(hostname, no_proxy):
if not no_proxy:
v = os.environ.get("no_proxy", "").replace(" ", "")
v = os.environ.get("no_proxy", os.environ.get("NO_PROXY", "")).replace(" ", "")
if v:
no_proxy = v.split(",")
if not no_proxy:
@ -139,22 +139,21 @@ def get_proxy_info(
Parameters
----------
hostname: <type>
websocket server name.
is_secure: <type>
is the connection secure? (wss) looks for "https_proxy" in env
hostname: str
Websocket server name.
is_secure: bool
Is the connection secure? (wss) looks for "https_proxy" in env
before falling back to "http_proxy"
options: <type>
- http_proxy_host: <type>
http proxy host name.
- http_proxy_port: <type>
http proxy port.
- http_no_proxy: <type>
host names, which doesn't use proxy.
- http_proxy_auth: <type>
http proxy auth information. tuple of username and password. default is None
- proxy_type: <type>
if set to "socks5" PySocks wrapper will be used in place of a http proxy. default is "http"
proxy_host: str
http proxy host name.
http_proxy_port: str or int
http proxy port.
http_no_proxy: list
Whitelisted host names that don't use the proxy.
http_proxy_auth: tuple
HTTP proxy auth information. Tuple of username and password. Default is None.
proxy_type: str
If set to "socks4" or "socks5", a PySocks wrapper will be used in place of a HTTP proxy. Default is "http".
"""
if _is_no_proxy_host(hostname, no_proxy):
return None, 0, None
@ -169,10 +168,10 @@ def get_proxy_info(
env_keys.insert(0, "https_proxy")
for key in env_keys:
value = os.environ.get(key, None)
value = os.environ.get(key, os.environ.get(key.upper(), "")).replace(" ", "")
if value:
proxy = urlparse(value)
auth = (proxy.username, proxy.password) if proxy.username else None
auth = (unquote(proxy.username), unquote(proxy.password)) if proxy.username else None
return proxy.hostname, proxy.port, auth
return None, 0, None

View file

@ -1,6 +0,0 @@
HTTP/1.1 101 WebSocket Protocol Handshake
Connection: Upgrade
Upgrade: WebSocket
Sec-WebSocket-Accept: Kxep+hNu9n51529fGidYu7a3wO0=
some_header: something

View file

@ -1,6 +0,0 @@
HTTP/1.1 101 WebSocket Protocol Handshake
Connection: Upgrade
Upgrade WebSocket
Sec-WebSocket-Accept: Kxep+hNu9n51529fGidYu7a3wO0=
some_header: something

View file

@ -1,7 +0,0 @@
HTTP/1.1 101 WebSocket Protocol Handshake
Connection: Upgrade, Keep-Alive
Upgrade: WebSocket
Sec-WebSocket-Accept: Kxep+hNu9n51529fGidYu7a3wO0=
Set-Cookie: Token=ABCDE
some_header: something

View file

@ -1,94 +0,0 @@
# -*- coding: utf-8 -*-
#
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import os
import websocket as ws
from websocket._abnf import *
import sys
import unittest
sys.path[0:0] = [""]
class ABNFTest(unittest.TestCase):
def testInit(self):
a = ABNF(0,0,0,0, opcode=ABNF.OPCODE_PING)
self.assertEqual(a.fin, 0)
self.assertEqual(a.rsv1, 0)
self.assertEqual(a.rsv2, 0)
self.assertEqual(a.rsv3, 0)
self.assertEqual(a.opcode, 9)
self.assertEqual(a.data, '')
a_bad = ABNF(0,1,0,0, opcode=77)
self.assertEqual(a_bad.rsv1, 1)
self.assertEqual(a_bad.opcode, 77)
def testValidate(self):
a_invalid_ping = ABNF(0,0,0,0, opcode=ABNF.OPCODE_PING)
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_invalid_ping.validate, skip_utf8_validation=False)
a_bad_rsv_value = ABNF(0,1,0,0, opcode=ABNF.OPCODE_TEXT)
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_bad_rsv_value.validate, skip_utf8_validation=False)
a_bad_opcode = ABNF(0,0,0,0, opcode=77)
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_bad_opcode.validate, skip_utf8_validation=False)
a_bad_close_frame = ABNF(0,0,0,0, opcode=ABNF.OPCODE_CLOSE, data=b'\x01')
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_bad_close_frame.validate, skip_utf8_validation=False)
a_bad_close_frame_2 = ABNF(0,0,0,0, opcode=ABNF.OPCODE_CLOSE, data=b'\x01\x8a\xaa\xff\xdd')
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_bad_close_frame_2.validate, skip_utf8_validation=False)
a_bad_close_frame_3 = ABNF(0,0,0,0, opcode=ABNF.OPCODE_CLOSE, data=b'\x03\xe7')
self.assertRaises(ws._exceptions.WebSocketProtocolException, a_bad_close_frame_3.validate, skip_utf8_validation=True)
def testMask(self):
abnf_none_data = ABNF(0,0,0,0, opcode=ABNF.OPCODE_PING, mask=1, data=None)
bytes_val = bytes("aaaa", 'utf-8')
self.assertEqual(abnf_none_data._get_masked(bytes_val), bytes_val)
abnf_str_data = ABNF(0,0,0,0, opcode=ABNF.OPCODE_PING, mask=1, data="a")
self.assertEqual(abnf_str_data._get_masked(bytes_val), b'aaaa\x00')
def testFormat(self):
abnf_bad_rsv_bits = ABNF(2,0,0,0, opcode=ABNF.OPCODE_TEXT)
self.assertRaises(ValueError, abnf_bad_rsv_bits.format)
abnf_bad_opcode = ABNF(0,0,0,0, opcode=5)
self.assertRaises(ValueError, abnf_bad_opcode.format)
abnf_length_10 = ABNF(0,0,0,0, opcode=ABNF.OPCODE_TEXT, data="abcdefghij")
self.assertEqual(b'\x01', abnf_length_10.format()[0].to_bytes(1, 'big'))
self.assertEqual(b'\x8a', abnf_length_10.format()[1].to_bytes(1, 'big'))
self.assertEqual("fin=0 opcode=1 data=abcdefghij", abnf_length_10.__str__())
abnf_length_20 = ABNF(0,0,0,0, opcode=ABNF.OPCODE_BINARY, data="abcdefghijabcdefghij")
self.assertEqual(b'\x02', abnf_length_20.format()[0].to_bytes(1, 'big'))
self.assertEqual(b'\x94', abnf_length_20.format()[1].to_bytes(1, 'big'))
abnf_no_mask = ABNF(0,0,0,0, opcode=ABNF.OPCODE_TEXT, mask=0, data=b'\x01\x8a\xcc')
self.assertEqual(b'\x01\x03\x01\x8a\xcc', abnf_no_mask.format())
def testFrameBuffer(self):
fb = frame_buffer(0, True)
self.assertEqual(fb.recv, 0)
self.assertEqual(fb.skip_utf8_validation, True)
fb.clear
self.assertEqual(fb.header, None)
self.assertEqual(fb.length, None)
self.assertEqual(fb.mask, None)
self.assertEqual(fb.has_mask(), False)
if __name__ == "__main__":
unittest.main()

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@ -1,176 +0,0 @@
# -*- coding: utf-8 -*-
#
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import os
import os.path
import websocket as ws
import sys
import ssl
import unittest
sys.path[0:0] = [""]
# Skip test to access the internet.
TEST_WITH_INTERNET = os.environ.get('TEST_WITH_INTERNET', '0') == '1'
TRACEABLE = True
class WebSocketAppTest(unittest.TestCase):
class NotSetYet(object):
""" A marker class for signalling that a value hasn't been set yet.
"""
def setUp(self):
ws.enableTrace(TRACEABLE)
WebSocketAppTest.keep_running_open = WebSocketAppTest.NotSetYet()
WebSocketAppTest.keep_running_close = WebSocketAppTest.NotSetYet()
WebSocketAppTest.get_mask_key_id = WebSocketAppTest.NotSetYet()
def tearDown(self):
WebSocketAppTest.keep_running_open = WebSocketAppTest.NotSetYet()
WebSocketAppTest.keep_running_close = WebSocketAppTest.NotSetYet()
WebSocketAppTest.get_mask_key_id = WebSocketAppTest.NotSetYet()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testKeepRunning(self):
""" A WebSocketApp should keep running as long as its self.keep_running
is not False (in the boolean context).
"""
def on_open(self, *args, **kwargs):
""" Set the keep_running flag for later inspection and immediately
close the connection.
"""
WebSocketAppTest.keep_running_open = self.keep_running
self.close()
def on_close(self, *args, **kwargs):
""" Set the keep_running flag for the test to use.
"""
WebSocketAppTest.keep_running_close = self.keep_running
self.send("connection should be closed here")
app = ws.WebSocketApp('ws://echo.websocket.org/', on_open=on_open, on_close=on_close)
app.run_forever()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testSockMaskKey(self):
""" A WebSocketApp should forward the received mask_key function down
to the actual socket.
"""
def my_mask_key_func():
return "\x00\x00\x00\x00"
app = ws.WebSocketApp('wss://stream.meetup.com/2/rsvps', get_mask_key=my_mask_key_func)
# if numpy is installed, this assertion fail
# Note: We can't use 'is' for comparing the functions directly, need to use 'id'.
self.assertEqual(id(app.get_mask_key), id(my_mask_key_func))
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testInvalidPingIntervalPingTimeout(self):
""" Test exception handling if ping_interval < ping_timeout
"""
def on_ping(app, msg):
print("Got a ping!")
app.close()
def on_pong(app, msg):
print("Got a pong! No need to respond")
app.close()
app = ws.WebSocketApp('wss://api-pub.bitfinex.com/ws/1', on_ping=on_ping, on_pong=on_pong)
self.assertRaises(ws.WebSocketException, app.run_forever, ping_interval=1, ping_timeout=2, sslopt={"cert_reqs": ssl.CERT_NONE})
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testPingInterval(self):
""" Test WebSocketApp proper ping functionality
"""
def on_ping(app, msg):
print("Got a ping!")
app.close()
def on_pong(app, msg):
print("Got a pong! No need to respond")
app.close()
app = ws.WebSocketApp('wss://api-pub.bitfinex.com/ws/1', on_ping=on_ping, on_pong=on_pong)
app.run_forever(ping_interval=2, ping_timeout=1, sslopt={"cert_reqs": ssl.CERT_NONE})
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testOpcodeClose(self):
""" Test WebSocketApp close opcode
"""
app = ws.WebSocketApp('wss://tsock.us1.twilio.com/v3/wsconnect')
app.run_forever(ping_interval=2, ping_timeout=1, ping_payload="Ping payload")
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testOpcodeBinary(self):
""" Test WebSocketApp binary opcode
"""
app = ws.WebSocketApp('streaming.vn.teslamotors.com/streaming/')
app.run_forever(ping_interval=2, ping_timeout=1, ping_payload="Ping payload")
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testBadPingInterval(self):
""" A WebSocketApp handling of negative ping_interval
"""
app = ws.WebSocketApp('wss://api-pub.bitfinex.com/ws/1')
self.assertRaises(ws.WebSocketException, app.run_forever, ping_interval=-5, sslopt={"cert_reqs": ssl.CERT_NONE})
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testBadPingTimeout(self):
""" A WebSocketApp handling of negative ping_timeout
"""
app = ws.WebSocketApp('wss://api-pub.bitfinex.com/ws/1')
self.assertRaises(ws.WebSocketException, app.run_forever, ping_timeout=-3, sslopt={"cert_reqs": ssl.CERT_NONE})
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testCloseStatusCode(self):
""" Test extraction of close frame status code and close reason in WebSocketApp
"""
def on_close(wsapp, close_status_code, close_msg):
print("on_close reached")
app = ws.WebSocketApp('wss://tsock.us1.twilio.com/v3/wsconnect', on_close=on_close)
closeframe = ws.ABNF(opcode=ws.ABNF.OPCODE_CLOSE, data=b'\x03\xe8no-init-from-client')
self.assertEqual([1000, 'no-init-from-client'], app._get_close_args(closeframe))
closeframe = ws.ABNF(opcode=ws.ABNF.OPCODE_CLOSE, data=b'')
self.assertEqual([None, None], app._get_close_args(closeframe))
app2 = ws.WebSocketApp('wss://tsock.us1.twilio.com/v3/wsconnect')
closeframe = ws.ABNF(opcode=ws.ABNF.OPCODE_CLOSE, data=b'')
self.assertEqual([None, None], app2._get_close_args(closeframe))
self.assertRaises(ws.WebSocketConnectionClosedException, app.send, data="test if connection is closed")
if __name__ == "__main__":
unittest.main()

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@ -1,118 +0,0 @@
"""
"""
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import unittest
from websocket._cookiejar import SimpleCookieJar
class CookieJarTest(unittest.TestCase):
def testAdd(self):
cookie_jar = SimpleCookieJar()
cookie_jar.add("")
self.assertFalse(cookie_jar.jar, "Cookie with no domain should not be added to the jar")
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b")
self.assertFalse(cookie_jar.jar, "Cookie with no domain should not be added to the jar")
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; domain=.abc")
self.assertTrue(".abc" in cookie_jar.jar)
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; domain=abc")
self.assertTrue(".abc" in cookie_jar.jar)
self.assertTrue("abc" not in cookie_jar.jar)
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; c=d; domain=abc")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d")
self.assertEqual(cookie_jar.get(None), "")
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; c=d; domain=abc")
cookie_jar.add("e=f; domain=abc")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d; e=f")
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; c=d; domain=abc")
cookie_jar.add("e=f; domain=.abc")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d; e=f")
cookie_jar = SimpleCookieJar()
cookie_jar.add("a=b; c=d; domain=abc")
cookie_jar.add("e=f; domain=xyz")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d")
self.assertEqual(cookie_jar.get("xyz"), "e=f")
self.assertEqual(cookie_jar.get("something"), "")
def testSet(self):
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b")
self.assertFalse(cookie_jar.jar, "Cookie with no domain should not be added to the jar")
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; domain=.abc")
self.assertTrue(".abc" in cookie_jar.jar)
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; domain=abc")
self.assertTrue(".abc" in cookie_jar.jar)
self.assertTrue("abc" not in cookie_jar.jar)
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; c=d; domain=abc")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d")
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; c=d; domain=abc")
cookie_jar.set("e=f; domain=abc")
self.assertEqual(cookie_jar.get("abc"), "e=f")
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; c=d; domain=abc")
cookie_jar.set("e=f; domain=.abc")
self.assertEqual(cookie_jar.get("abc"), "e=f")
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; c=d; domain=abc")
cookie_jar.set("e=f; domain=xyz")
self.assertEqual(cookie_jar.get("abc"), "a=b; c=d")
self.assertEqual(cookie_jar.get("xyz"), "e=f")
self.assertEqual(cookie_jar.get("something"), "")
def testGet(self):
cookie_jar = SimpleCookieJar()
cookie_jar.set("a=b; c=d; domain=abc.com")
self.assertEqual(cookie_jar.get("abc.com"), "a=b; c=d")
self.assertEqual(cookie_jar.get("x.abc.com"), "a=b; c=d")
self.assertEqual(cookie_jar.get("abc.com.es"), "")
self.assertEqual(cookie_jar.get("xabc.com"), "")
cookie_jar.set("a=b; c=d; domain=.abc.com")
self.assertEqual(cookie_jar.get("abc.com"), "a=b; c=d")
self.assertEqual(cookie_jar.get("x.abc.com"), "a=b; c=d")
self.assertEqual(cookie_jar.get("abc.com.es"), "")
self.assertEqual(cookie_jar.get("xabc.com"), "")

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@ -1,150 +0,0 @@
# -*- coding: utf-8 -*-
#
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import os
import os.path
import websocket as ws
from websocket._http import proxy_info, read_headers, _open_proxied_socket, _tunnel, _get_addrinfo_list, connect
import sys
import unittest
import ssl
import websocket
import socks
import socket
sys.path[0:0] = [""]
# Skip test to access the internet.
TEST_WITH_INTERNET = os.environ.get('TEST_WITH_INTERNET', '0') == '1'
class SockMock(object):
def __init__(self):
self.data = []
self.sent = []
def add_packet(self, data):
self.data.append(data)
def gettimeout(self):
return None
def recv(self, bufsize):
if self.data:
e = self.data.pop(0)
if isinstance(e, Exception):
raise e
if len(e) > bufsize:
self.data.insert(0, e[bufsize:])
return e[:bufsize]
def send(self, data):
self.sent.append(data)
return len(data)
def close(self):
pass
class HeaderSockMock(SockMock):
def __init__(self, fname):
SockMock.__init__(self)
path = os.path.join(os.path.dirname(__file__), fname)
with open(path, "rb") as f:
self.add_packet(f.read())
class OptsList():
def __init__(self):
self.timeout = 1
self.sockopt = []
class HttpTest(unittest.TestCase):
def testReadHeader(self):
status, header, status_message = read_headers(HeaderSockMock("data/header01.txt"))
self.assertEqual(status, 101)
self.assertEqual(header["connection"], "Upgrade")
# header02.txt is intentionally malformed
self.assertRaises(ws.WebSocketException, read_headers, HeaderSockMock("data/header02.txt"))
def testTunnel(self):
self.assertRaises(ws.WebSocketProxyException, _tunnel, HeaderSockMock("data/header01.txt"), "example.com", 80, ("username", "password"))
self.assertRaises(ws.WebSocketProxyException, _tunnel, HeaderSockMock("data/header02.txt"), "example.com", 80, ("username", "password"))
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testConnect(self):
# Not currently testing an actual proxy connection, so just check whether TypeError is raised. This requires internet for a DNS lookup
self.assertRaises(TypeError, _open_proxied_socket, "wss://example.com", OptsList(), proxy_info(http_proxy_host=None, http_proxy_port=None, proxy_type=None))
self.assertRaises(TypeError, _open_proxied_socket, "wss://example.com", OptsList(), proxy_info(http_proxy_host="example.com", http_proxy_port="8080", proxy_type="http"))
self.assertRaises(TypeError, _open_proxied_socket, "wss://example.com", OptsList(), proxy_info(http_proxy_host="example.com", http_proxy_port="8080", proxy_type="socks4"))
self.assertRaises(TypeError, _open_proxied_socket, "wss://example.com", OptsList(), proxy_info(http_proxy_host="example.com", http_proxy_port="8080", proxy_type="socks5h"))
self.assertRaises(TypeError, _get_addrinfo_list, None, 80, True, proxy_info(http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="http"))
self.assertRaises(TypeError, _get_addrinfo_list, None, 80, True, proxy_info(http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="http"))
self.assertRaises(socks.ProxyConnectionError, connect, "wss://example.com", OptsList(), proxy_info(http_proxy_host="127.0.0.1", http_proxy_port=8080, proxy_type="socks4"), None)
self.assertRaises(socket.timeout, connect, "wss://google.com", OptsList(), proxy_info(http_proxy_host="8.8.8.8", http_proxy_port=8080, proxy_type="http"), None)
self.assertEqual(
connect("wss://google.com", OptsList(), proxy_info(http_proxy_host="8.8.8.8", http_proxy_port=8080, proxy_type="http"), True),
(True, ("google.com", 443, "/")))
# The following test fails on Mac OS with a gaierror, not an OverflowError
# self.assertRaises(OverflowError, connect, "wss://example.com", OptsList(), proxy_info(http_proxy_host="127.0.0.1", http_proxy_port=99999, proxy_type="socks4", timeout=2), False)
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testSSLopt(self):
ssloptions = {
"cert_reqs": ssl.CERT_NONE,
"check_hostname": False,
"ssl_version": ssl.PROTOCOL_SSLv23,
"ciphers": "TLS_AES_256_GCM_SHA384:TLS_CHACHA20_POLY1305_SHA256:\
TLS_AES_128_GCM_SHA256:ECDHE-ECDSA-AES256-GCM-SHA384:\
ECDHE-RSA-AES256-GCM-SHA384:DHE-RSA-AES256-GCM-SHA384:\
ECDHE-ECDSA-CHACHA20-POLY1305:ECDHE-RSA-CHACHA20-POLY1305:\
DHE-RSA-CHACHA20-POLY1305:ECDHE-ECDSA-AES128-GCM-SHA256:\
ECDHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES128-GCM-SHA256:\
ECDHE-ECDSA-AES256-SHA384:ECDHE-RSA-AES256-SHA384:\
DHE-RSA-AES256-SHA256:ECDHE-ECDSA-AES128-SHA256:\
ECDHE-RSA-AES128-SHA256:DHE-RSA-AES128-SHA256:\
ECDHE-ECDSA-AES256-SHA:ECDHE-RSA-AES256-SHA",
"ecdh_curve": "prime256v1"
}
ws_ssl1 = websocket.WebSocket(sslopt=ssloptions)
ws_ssl1.connect("wss://api.bitfinex.com/ws/2")
ws_ssl1.send("Hello")
ws_ssl1.close()
ws_ssl2 = websocket.WebSocket(sslopt={"check_hostname": True})
ws_ssl2.connect("wss://api.bitfinex.com/ws/2")
ws_ssl2.close
def testProxyInfo(self):
self.assertEqual(proxy_info(http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="http").type, "http")
self.assertRaises(ValueError, proxy_info, http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="badval")
self.assertEqual(proxy_info(http_proxy_host="example.com", http_proxy_port="8080", proxy_type="http").host, "example.com")
self.assertEqual(proxy_info(http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="http").port, "8080")
self.assertEqual(proxy_info(http_proxy_host="127.0.0.1", http_proxy_port="8080", proxy_type="http").auth, None)
if __name__ == "__main__":
unittest.main()

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@ -1,301 +0,0 @@
# -*- coding: utf-8 -*-
#
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import sys
import os
import unittest
sys.path[0:0] = [""]
from websocket._url import get_proxy_info, parse_url, _is_address_in_network, _is_no_proxy_host
class UrlTest(unittest.TestCase):
def test_address_in_network(self):
self.assertTrue(_is_address_in_network('127.0.0.1', '127.0.0.0/8'))
self.assertTrue(_is_address_in_network('127.1.0.1', '127.0.0.0/8'))
self.assertFalse(_is_address_in_network('127.1.0.1', '127.0.0.0/24'))
def testParseUrl(self):
p = parse_url("ws://www.example.com/r")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 80)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com/r/")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 80)
self.assertEqual(p[2], "/r/")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com/")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 80)
self.assertEqual(p[2], "/")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 80)
self.assertEqual(p[2], "/")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com:8080/r")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com:8080/")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/")
self.assertEqual(p[3], False)
p = parse_url("ws://www.example.com:8080")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/")
self.assertEqual(p[3], False)
p = parse_url("wss://www.example.com:8080/r")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], True)
p = parse_url("wss://www.example.com:8080/r?key=value")
self.assertEqual(p[0], "www.example.com")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/r?key=value")
self.assertEqual(p[3], True)
self.assertRaises(ValueError, parse_url, "http://www.example.com/r")
p = parse_url("ws://[2a03:4000:123:83::3]/r")
self.assertEqual(p[0], "2a03:4000:123:83::3")
self.assertEqual(p[1], 80)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], False)
p = parse_url("ws://[2a03:4000:123:83::3]:8080/r")
self.assertEqual(p[0], "2a03:4000:123:83::3")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], False)
p = parse_url("wss://[2a03:4000:123:83::3]/r")
self.assertEqual(p[0], "2a03:4000:123:83::3")
self.assertEqual(p[1], 443)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], True)
p = parse_url("wss://[2a03:4000:123:83::3]:8080/r")
self.assertEqual(p[0], "2a03:4000:123:83::3")
self.assertEqual(p[1], 8080)
self.assertEqual(p[2], "/r")
self.assertEqual(p[3], True)
class IsNoProxyHostTest(unittest.TestCase):
def setUp(self):
self.no_proxy = os.environ.get("no_proxy", None)
if "no_proxy" in os.environ:
del os.environ["no_proxy"]
def tearDown(self):
if self.no_proxy:
os.environ["no_proxy"] = self.no_proxy
elif "no_proxy" in os.environ:
del os.environ["no_proxy"]
def testMatchAll(self):
self.assertTrue(_is_no_proxy_host("any.websocket.org", ['*']))
self.assertTrue(_is_no_proxy_host("192.168.0.1", ['*']))
self.assertTrue(_is_no_proxy_host("any.websocket.org", ['other.websocket.org', '*']))
os.environ['no_proxy'] = '*'
self.assertTrue(_is_no_proxy_host("any.websocket.org", None))
self.assertTrue(_is_no_proxy_host("192.168.0.1", None))
os.environ['no_proxy'] = 'other.websocket.org, *'
self.assertTrue(_is_no_proxy_host("any.websocket.org", None))
def testIpAddress(self):
self.assertTrue(_is_no_proxy_host("127.0.0.1", ['127.0.0.1']))
self.assertFalse(_is_no_proxy_host("127.0.0.2", ['127.0.0.1']))
self.assertTrue(_is_no_proxy_host("127.0.0.1", ['other.websocket.org', '127.0.0.1']))
self.assertFalse(_is_no_proxy_host("127.0.0.2", ['other.websocket.org', '127.0.0.1']))
os.environ['no_proxy'] = '127.0.0.1'
self.assertTrue(_is_no_proxy_host("127.0.0.1", None))
self.assertFalse(_is_no_proxy_host("127.0.0.2", None))
os.environ['no_proxy'] = 'other.websocket.org, 127.0.0.1'
self.assertTrue(_is_no_proxy_host("127.0.0.1", None))
self.assertFalse(_is_no_proxy_host("127.0.0.2", None))
def testIpAddressInRange(self):
self.assertTrue(_is_no_proxy_host("127.0.0.1", ['127.0.0.0/8']))
self.assertTrue(_is_no_proxy_host("127.0.0.2", ['127.0.0.0/8']))
self.assertFalse(_is_no_proxy_host("127.1.0.1", ['127.0.0.0/24']))
os.environ['no_proxy'] = '127.0.0.0/8'
self.assertTrue(_is_no_proxy_host("127.0.0.1", None))
self.assertTrue(_is_no_proxy_host("127.0.0.2", None))
os.environ['no_proxy'] = '127.0.0.0/24'
self.assertFalse(_is_no_proxy_host("127.1.0.1", None))
def testHostnameMatch(self):
self.assertTrue(_is_no_proxy_host("my.websocket.org", ['my.websocket.org']))
self.assertTrue(_is_no_proxy_host("my.websocket.org", ['other.websocket.org', 'my.websocket.org']))
self.assertFalse(_is_no_proxy_host("my.websocket.org", ['other.websocket.org']))
os.environ['no_proxy'] = 'my.websocket.org'
self.assertTrue(_is_no_proxy_host("my.websocket.org", None))
self.assertFalse(_is_no_proxy_host("other.websocket.org", None))
os.environ['no_proxy'] = 'other.websocket.org, my.websocket.org'
self.assertTrue(_is_no_proxy_host("my.websocket.org", None))
def testHostnameMatchDomain(self):
self.assertTrue(_is_no_proxy_host("any.websocket.org", ['.websocket.org']))
self.assertTrue(_is_no_proxy_host("my.other.websocket.org", ['.websocket.org']))
self.assertTrue(_is_no_proxy_host("any.websocket.org", ['my.websocket.org', '.websocket.org']))
self.assertFalse(_is_no_proxy_host("any.websocket.com", ['.websocket.org']))
os.environ['no_proxy'] = '.websocket.org'
self.assertTrue(_is_no_proxy_host("any.websocket.org", None))
self.assertTrue(_is_no_proxy_host("my.other.websocket.org", None))
self.assertFalse(_is_no_proxy_host("any.websocket.com", None))
os.environ['no_proxy'] = 'my.websocket.org, .websocket.org'
self.assertTrue(_is_no_proxy_host("any.websocket.org", None))
class ProxyInfoTest(unittest.TestCase):
def setUp(self):
self.http_proxy = os.environ.get("http_proxy", None)
self.https_proxy = os.environ.get("https_proxy", None)
self.no_proxy = os.environ.get("no_proxy", None)
if "http_proxy" in os.environ:
del os.environ["http_proxy"]
if "https_proxy" in os.environ:
del os.environ["https_proxy"]
if "no_proxy" in os.environ:
del os.environ["no_proxy"]
def tearDown(self):
if self.http_proxy:
os.environ["http_proxy"] = self.http_proxy
elif "http_proxy" in os.environ:
del os.environ["http_proxy"]
if self.https_proxy:
os.environ["https_proxy"] = self.https_proxy
elif "https_proxy" in os.environ:
del os.environ["https_proxy"]
if self.no_proxy:
os.environ["no_proxy"] = self.no_proxy
elif "no_proxy" in os.environ:
del os.environ["no_proxy"]
def testProxyFromArgs(self):
self.assertEqual(get_proxy_info("echo.websocket.org", False, proxy_host="localhost"), ("localhost", 0, None))
self.assertEqual(get_proxy_info("echo.websocket.org", False, proxy_host="localhost", proxy_port=3128),
("localhost", 3128, None))
self.assertEqual(get_proxy_info("echo.websocket.org", True, proxy_host="localhost"), ("localhost", 0, None))
self.assertEqual(get_proxy_info("echo.websocket.org", True, proxy_host="localhost", proxy_port=3128),
("localhost", 3128, None))
self.assertEqual(get_proxy_info("echo.websocket.org", False, proxy_host="localhost", proxy_auth=("a", "b")),
("localhost", 0, ("a", "b")))
self.assertEqual(
get_proxy_info("echo.websocket.org", False, proxy_host="localhost", proxy_port=3128, proxy_auth=("a", "b")),
("localhost", 3128, ("a", "b")))
self.assertEqual(get_proxy_info("echo.websocket.org", True, proxy_host="localhost", proxy_auth=("a", "b")),
("localhost", 0, ("a", "b")))
self.assertEqual(
get_proxy_info("echo.websocket.org", True, proxy_host="localhost", proxy_port=3128, proxy_auth=("a", "b")),
("localhost", 3128, ("a", "b")))
self.assertEqual(get_proxy_info("echo.websocket.org", True, proxy_host="localhost", proxy_port=3128,
no_proxy=["example.com"], proxy_auth=("a", "b")),
("localhost", 3128, ("a", "b")))
self.assertEqual(get_proxy_info("echo.websocket.org", True, proxy_host="localhost", proxy_port=3128,
no_proxy=["echo.websocket.org"], proxy_auth=("a", "b")),
(None, 0, None))
def testProxyFromEnv(self):
os.environ["http_proxy"] = "http://localhost/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", None, None))
os.environ["http_proxy"] = "http://localhost:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", 3128, None))
os.environ["http_proxy"] = "http://localhost/"
os.environ["https_proxy"] = "http://localhost2/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", None, None))
os.environ["http_proxy"] = "http://localhost:3128/"
os.environ["https_proxy"] = "http://localhost2:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", 3128, None))
os.environ["http_proxy"] = "http://localhost/"
os.environ["https_proxy"] = "http://localhost2/"
self.assertEqual(get_proxy_info("echo.websocket.org", True), ("localhost2", None, None))
os.environ["http_proxy"] = "http://localhost:3128/"
os.environ["https_proxy"] = "http://localhost2:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", True), ("localhost2", 3128, None))
os.environ["http_proxy"] = "http://a:b@localhost/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", None, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", 3128, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost/"
os.environ["https_proxy"] = "http://a:b@localhost2/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", None, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
os.environ["https_proxy"] = "http://a:b@localhost2:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", False), ("localhost", 3128, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost/"
os.environ["https_proxy"] = "http://a:b@localhost2/"
self.assertEqual(get_proxy_info("echo.websocket.org", True), ("localhost2", None, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
os.environ["https_proxy"] = "http://a:b@localhost2:3128/"
self.assertEqual(get_proxy_info("echo.websocket.org", True), ("localhost2", 3128, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost/"
os.environ["https_proxy"] = "http://a:b@localhost2/"
os.environ["no_proxy"] = "example1.com,example2.com"
self.assertEqual(get_proxy_info("example.1.com", True), ("localhost2", None, ("a", "b")))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
os.environ["https_proxy"] = "http://a:b@localhost2:3128/"
os.environ["no_proxy"] = "example1.com,example2.com, echo.websocket.org"
self.assertEqual(get_proxy_info("echo.websocket.org", True), (None, 0, None))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
os.environ["https_proxy"] = "http://a:b@localhost2:3128/"
os.environ["no_proxy"] = "example1.com,example2.com, .websocket.org"
self.assertEqual(get_proxy_info("echo.websocket.org", True), (None, 0, None))
os.environ["http_proxy"] = "http://a:b@localhost:3128/"
os.environ["https_proxy"] = "http://a:b@localhost2:3128/"
os.environ["no_proxy"] = "127.0.0.0/8, 192.168.0.0/16"
self.assertEqual(get_proxy_info("127.0.0.1", False), (None, 0, None))
self.assertEqual(get_proxy_info("192.168.1.1", False), (None, 0, None))
if __name__ == "__main__":
unittest.main()

View file

@ -1,452 +0,0 @@
# -*- coding: utf-8 -*-
#
"""
"""
"""
websocket - WebSocket client library for Python
Copyright (C) 2010 Hiroki Ohtani(liris)
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""
import sys
sys.path[0:0] = [""]
import os
import os.path
import socket
import websocket as ws
from websocket._handshake import _create_sec_websocket_key, \
_validate as _validate_header
from websocket._http import read_headers
from websocket._utils import validate_utf8
from base64 import decodebytes as base64decode
import unittest
try:
import ssl
from ssl import SSLError
except ImportError:
# dummy class of SSLError for ssl none-support environment.
class SSLError(Exception):
pass
# Skip test to access the internet.
TEST_WITH_INTERNET = os.environ.get('TEST_WITH_INTERNET', '0') == '1'
TRACEABLE = True
def create_mask_key(_):
return "abcd"
class SockMock(object):
def __init__(self):
self.data = []
self.sent = []
def add_packet(self, data):
self.data.append(data)
def gettimeout(self):
return None
def recv(self, bufsize):
if self.data:
e = self.data.pop(0)
if isinstance(e, Exception):
raise e
if len(e) > bufsize:
self.data.insert(0, e[bufsize:])
return e[:bufsize]
def send(self, data):
self.sent.append(data)
return len(data)
def close(self):
pass
class HeaderSockMock(SockMock):
def __init__(self, fname):
SockMock.__init__(self)
path = os.path.join(os.path.dirname(__file__), fname)
with open(path, "rb") as f:
self.add_packet(f.read())
class WebSocketTest(unittest.TestCase):
def setUp(self):
ws.enableTrace(TRACEABLE)
def tearDown(self):
pass
def testDefaultTimeout(self):
self.assertEqual(ws.getdefaulttimeout(), None)
ws.setdefaulttimeout(10)
self.assertEqual(ws.getdefaulttimeout(), 10)
ws.setdefaulttimeout(None)
def testWSKey(self):
key = _create_sec_websocket_key()
self.assertTrue(key != 24)
self.assertTrue(str("¥n") not in key)
def testNonce(self):
""" WebSocket key should be a random 16-byte nonce.
"""
key = _create_sec_websocket_key()
nonce = base64decode(key.encode("utf-8"))
self.assertEqual(16, len(nonce))
def testWsUtils(self):
key = "c6b8hTg4EeGb2gQMztV1/g=="
required_header = {
"upgrade": "websocket",
"connection": "upgrade",
"sec-websocket-accept": "Kxep+hNu9n51529fGidYu7a3wO0="}
self.assertEqual(_validate_header(required_header, key, None), (True, None))
header = required_header.copy()
header["upgrade"] = "http"
self.assertEqual(_validate_header(header, key, None), (False, None))
del header["upgrade"]
self.assertEqual(_validate_header(header, key, None), (False, None))
header = required_header.copy()
header["connection"] = "something"
self.assertEqual(_validate_header(header, key, None), (False, None))
del header["connection"]
self.assertEqual(_validate_header(header, key, None), (False, None))
header = required_header.copy()
header["sec-websocket-accept"] = "something"
self.assertEqual(_validate_header(header, key, None), (False, None))
del header["sec-websocket-accept"]
self.assertEqual(_validate_header(header, key, None), (False, None))
header = required_header.copy()
header["sec-websocket-protocol"] = "sub1"
self.assertEqual(_validate_header(header, key, ["sub1", "sub2"]), (True, "sub1"))
# This case will print out a logging error using the error() function, but that is expected
self.assertEqual(_validate_header(header, key, ["sub2", "sub3"]), (False, None))
header = required_header.copy()
header["sec-websocket-protocol"] = "sUb1"
self.assertEqual(_validate_header(header, key, ["Sub1", "suB2"]), (True, "sub1"))
header = required_header.copy()
# This case will print out a logging error using the error() function, but that is expected
self.assertEqual(_validate_header(header, key, ["Sub1", "suB2"]), (False, None))
def testReadHeader(self):
status, header, status_message = read_headers(HeaderSockMock("data/header01.txt"))
self.assertEqual(status, 101)
self.assertEqual(header["connection"], "Upgrade")
status, header, status_message = read_headers(HeaderSockMock("data/header03.txt"))
self.assertEqual(status, 101)
self.assertEqual(header["connection"], "Upgrade, Keep-Alive")
HeaderSockMock("data/header02.txt")
self.assertRaises(ws.WebSocketException, read_headers, HeaderSockMock("data/header02.txt"))
def testSend(self):
# TODO: add longer frame data
sock = ws.WebSocket()
sock.set_mask_key(create_mask_key)
s = sock.sock = HeaderSockMock("data/header01.txt")
sock.send("Hello")
self.assertEqual(s.sent[0], b'\x81\x85abcd)\x07\x0f\x08\x0e')
sock.send("こんにちは")
self.assertEqual(s.sent[1], b'\x81\x8fabcd\x82\xe3\xf0\x87\xe3\xf1\x80\xe5\xca\x81\xe2\xc5\x82\xe3\xcc')
# sock.send("x" * 5000)
# self.assertEqual(s.sent[1], b'\x81\x8fabcd\x82\xe3\xf0\x87\xe3\xf1\x80\xe5\xca\x81\xe2\xc5\x82\xe3\xcc")
self.assertEqual(sock.send_binary(b'1111111111101'), 19)
def testRecv(self):
# TODO: add longer frame data
sock = ws.WebSocket()
s = sock.sock = SockMock()
something = b'\x81\x8fabcd\x82\xe3\xf0\x87\xe3\xf1\x80\xe5\xca\x81\xe2\xc5\x82\xe3\xcc'
s.add_packet(something)
data = sock.recv()
self.assertEqual(data, "こんにちは")
s.add_packet(b'\x81\x85abcd)\x07\x0f\x08\x0e')
data = sock.recv()
self.assertEqual(data, "Hello")
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testIter(self):
count = 2
for _ in ws.create_connection('wss://stream.meetup.com/2/rsvps'):
count -= 1
if count == 0:
break
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testNext(self):
sock = ws.create_connection('wss://stream.meetup.com/2/rsvps')
self.assertEqual(str, type(next(sock)))
def testInternalRecvStrict(self):
sock = ws.WebSocket()
s = sock.sock = SockMock()
s.add_packet(b'foo')
s.add_packet(socket.timeout())
s.add_packet(b'bar')
# s.add_packet(SSLError("The read operation timed out"))
s.add_packet(b'baz')
with self.assertRaises(ws.WebSocketTimeoutException):
sock.frame_buffer.recv_strict(9)
# with self.assertRaises(SSLError):
# data = sock._recv_strict(9)
data = sock.frame_buffer.recv_strict(9)
self.assertEqual(data, b'foobarbaz')
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.frame_buffer.recv_strict(1)
def testRecvTimeout(self):
sock = ws.WebSocket()
s = sock.sock = SockMock()
s.add_packet(b'\x81')
s.add_packet(socket.timeout())
s.add_packet(b'\x8dabcd\x29\x07\x0f\x08\x0e')
s.add_packet(socket.timeout())
s.add_packet(b'\x4e\x43\x33\x0e\x10\x0f\x00\x40')
with self.assertRaises(ws.WebSocketTimeoutException):
sock.recv()
with self.assertRaises(ws.WebSocketTimeoutException):
sock.recv()
data = sock.recv()
self.assertEqual(data, "Hello, World!")
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.recv()
def testRecvWithSimpleFragmentation(self):
sock = ws.WebSocket()
s = sock.sock = SockMock()
# OPCODE=TEXT, FIN=0, MSG="Brevity is "
s.add_packet(b'\x01\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C')
# OPCODE=CONT, FIN=1, MSG="the soul of wit"
s.add_packet(b'\x80\x8fabcd\x15\n\x06D\x12\r\x16\x08A\r\x05D\x16\x0b\x17')
data = sock.recv()
self.assertEqual(data, "Brevity is the soul of wit")
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.recv()
def testRecvWithFireEventOfFragmentation(self):
sock = ws.WebSocket(fire_cont_frame=True)
s = sock.sock = SockMock()
# OPCODE=TEXT, FIN=0, MSG="Brevity is "
s.add_packet(b'\x01\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C')
# OPCODE=CONT, FIN=0, MSG="Brevity is "
s.add_packet(b'\x00\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C')
# OPCODE=CONT, FIN=1, MSG="the soul of wit"
s.add_packet(b'\x80\x8fabcd\x15\n\x06D\x12\r\x16\x08A\r\x05D\x16\x0b\x17')
_, data = sock.recv_data()
self.assertEqual(data, b'Brevity is ')
_, data = sock.recv_data()
self.assertEqual(data, b'Brevity is ')
_, data = sock.recv_data()
self.assertEqual(data, b'the soul of wit')
# OPCODE=CONT, FIN=0, MSG="Brevity is "
s.add_packet(b'\x80\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C')
with self.assertRaises(ws.WebSocketException):
sock.recv_data()
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.recv()
def testClose(self):
sock = ws.WebSocket()
sock.connected = True
self.assertRaises(ws._exceptions.WebSocketConnectionClosedException, sock.close)
sock = ws.WebSocket()
s = sock.sock = SockMock()
sock.connected = True
s.add_packet(b'\x88\x80\x17\x98p\x84')
sock.recv()
self.assertEqual(sock.connected, False)
def testRecvContFragmentation(self):
sock = ws.WebSocket()
s = sock.sock = SockMock()
# OPCODE=CONT, FIN=1, MSG="the soul of wit"
s.add_packet(b'\x80\x8fabcd\x15\n\x06D\x12\r\x16\x08A\r\x05D\x16\x0b\x17')
self.assertRaises(ws.WebSocketException, sock.recv)
def testRecvWithProlongedFragmentation(self):
sock = ws.WebSocket()
s = sock.sock = SockMock()
# OPCODE=TEXT, FIN=0, MSG="Once more unto the breach, "
s.add_packet(b'\x01\x9babcd.\x0c\x00\x01A\x0f\x0c\x16\x04B\x16\n\x15\rC\x10\t\x07C\x06\x13\x07\x02\x07\tNC')
# OPCODE=CONT, FIN=0, MSG="dear friends, "
s.add_packet(b'\x00\x8eabcd\x05\x07\x02\x16A\x04\x11\r\x04\x0c\x07\x17MB')
# OPCODE=CONT, FIN=1, MSG="once more"
s.add_packet(b'\x80\x89abcd\x0e\x0c\x00\x01A\x0f\x0c\x16\x04')
data = sock.recv()
self.assertEqual(
data,
"Once more unto the breach, dear friends, once more")
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.recv()
def testRecvWithFragmentationAndControlFrame(self):
sock = ws.WebSocket()
sock.set_mask_key(create_mask_key)
s = sock.sock = SockMock()
# OPCODE=TEXT, FIN=0, MSG="Too much "
s.add_packet(b'\x01\x89abcd5\r\x0cD\x0c\x17\x00\x0cA')
# OPCODE=PING, FIN=1, MSG="Please PONG this"
s.add_packet(b'\x89\x90abcd1\x0e\x06\x05\x12\x07C4.,$D\x15\n\n\x17')
# OPCODE=CONT, FIN=1, MSG="of a good thing"
s.add_packet(b'\x80\x8fabcd\x0e\x04C\x05A\x05\x0c\x0b\x05B\x17\x0c\x08\x0c\x04')
data = sock.recv()
self.assertEqual(data, "Too much of a good thing")
with self.assertRaises(ws.WebSocketConnectionClosedException):
sock.recv()
self.assertEqual(
s.sent[0],
b'\x8a\x90abcd1\x0e\x06\x05\x12\x07C4.,$D\x15\n\n\x17')
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testWebSocket(self):
s = ws.create_connection("ws://echo.websocket.org/")
self.assertNotEqual(s, None)
s.send("Hello, World")
result = s.recv()
self.assertEqual(result, "Hello, World")
s.send("こにゃにゃちは、世界")
result = s.recv()
self.assertEqual(result, "こにゃにゃちは、世界")
self.assertRaises(ValueError, s.send_close, -1, "")
s.close()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testPingPong(self):
s = ws.create_connection("ws://echo.websocket.org/")
self.assertNotEqual(s, None)
s.ping("Hello")
s.pong("Hi")
s.close()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testSecureWebSocket(self):
import ssl
s = ws.create_connection("wss://api.bitfinex.com/ws/2")
self.assertNotEqual(s, None)
self.assertTrue(isinstance(s.sock, ssl.SSLSocket))
self.assertEqual(s.getstatus(), 101)
self.assertNotEqual(s.getheaders(), None)
s.settimeout(10)
self.assertEqual(s.gettimeout(), 10)
self.assertEqual(s.getsubprotocol(), None)
s.abort()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testWebSocketWithCustomHeader(self):
s = ws.create_connection("ws://echo.websocket.org/",
headers={"User-Agent": "PythonWebsocketClient"})
self.assertNotEqual(s, None)
s.send("Hello, World")
result = s.recv()
self.assertEqual(result, "Hello, World")
self.assertRaises(ValueError, s.close, -1, "")
s.close()
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testAfterClose(self):
s = ws.create_connection("ws://echo.websocket.org/")
self.assertNotEqual(s, None)
s.close()
self.assertRaises(ws.WebSocketConnectionClosedException, s.send, "Hello")
self.assertRaises(ws.WebSocketConnectionClosedException, s.recv)
class SockOptTest(unittest.TestCase):
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testSockOpt(self):
sockopt = ((socket.IPPROTO_TCP, socket.TCP_NODELAY, 1),)
s = ws.create_connection("ws://echo.websocket.org", sockopt=sockopt)
self.assertNotEqual(s.sock.getsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY), 0)
s.close()
class UtilsTest(unittest.TestCase):
def testUtf8Validator(self):
state = validate_utf8(b'\xf0\x90\x80\x80')
self.assertEqual(state, True)
state = validate_utf8(b'\xce\xba\xe1\xbd\xb9\xcf\x83\xce\xbc\xce\xb5\xed\xa0\x80edited')
self.assertEqual(state, False)
state = validate_utf8(b'')
self.assertEqual(state, True)
class HandshakeTest(unittest.TestCase):
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def test_http_SSL(self):
websock1 = ws.WebSocket(sslopt={"cert_chain": ssl.get_default_verify_paths().capath})
self.assertRaises(ValueError,
websock1.connect, "wss://api.bitfinex.com/ws/2")
websock2 = ws.WebSocket(sslopt={"certfile": "myNonexistentCertFile"})
self.assertRaises(FileNotFoundError,
websock2.connect, "wss://api.bitfinex.com/ws/2")
@unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled")
def testManualHeaders(self):
websock3 = ws.WebSocket(sslopt={"cert_reqs": ssl.CERT_NONE,
"ca_certs": ssl.get_default_verify_paths().capath,
"ca_cert_path": ssl.get_default_verify_paths().openssl_cafile})
self.assertRaises(ws._exceptions.WebSocketBadStatusException,
websock3.connect, "wss://api.bitfinex.com/ws/2", cookie="chocolate",
origin="testing_websockets.com",
host="echo.websocket.org/websocket-client-test",
subprotocols=["testproto"],
connection="Upgrade",
header={"CustomHeader1":"123",
"Cookie":"TestValue",
"Sec-WebSocket-Key":"k9kFAUWNAMmf5OEMfTlOEA==",
"Sec-WebSocket-Protocol":"newprotocol"})
def testIPv6(self):
websock2 = ws.WebSocket()
self.assertRaises(ValueError, websock2.connect, "2001:4860:4860::8888")
def testBadURLs(self):
websock3 = ws.WebSocket()
self.assertRaises(ValueError, websock3.connect, "ws//example.com")
self.assertRaises(ws.WebSocketAddressException, websock3.connect, "ws://example")
self.assertRaises(ValueError, websock3.connect, "example.com")
if __name__ == "__main__":
unittest.main()