# -*- coding: utf-8 -*- # import sys sys.path[0:0] = [""] import os import os.path import socket import six # websocket-client import websocket as ws from websocket._handshake import _create_sec_websocket_key, \ _validate as _validate_header from websocket._http import read_headers from websocket._url import get_proxy_info, parse_url from websocket._utils import validate_utf8 if six.PY3: from base64 import decodebytes as base64decode else: from base64 import decodestring as base64decode if sys.version_info[0] == 2 and sys.version_info[1] < 7: import unittest2 as unittest else: import unittest try: 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' # Skip Secure WebSocket test. TEST_SECURE_WS = False TRACEABLE = False 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 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 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") if sys.version_info[0] == 2 and sys.version_info[1] < 7: return 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) def testWSKey(self): key = _create_sec_websocket_key() self.assertTrue(key != 24) self.assertTrue(six.u("¥n") not in key) 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")) 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")) def testReadHeader(self): status, header = read_headers(HeaderSockMock("data/header01.txt")) self.assertEqual(status, 101) self.assertEqual(header["connection"], "Upgrade") 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], six.b("\x81\x85abcd)\x07\x0f\x08\x0e")) sock.send("こんにちは") self.assertEqual(s.sent[1], six.b("\x81\x8fabcd\x82\xe3\xf0\x87\xe3\xf1\x80\xe5\xca\x81\xe2\xc5\x82\xe3\xcc")) sock.send(u"こんにちは") self.assertEqual(s.sent[1], six.b("\x81\x8fabcd\x82\xe3\xf0\x87\xe3\xf1\x80\xe5\xca\x81\xe2\xc5\x82\xe3\xcc")) sock.send("x" * 127) def testRecv(self): # TODO: add longer frame data sock = ws.WebSocket() s = sock.sock = SockMock() something = six.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(six.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('ws://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('ws://stream.meetup.com/2/rsvps') self.assertEqual(str, type(next(sock))) def testInternalRecvStrict(self): sock = ws.WebSocket() s = sock.sock = SockMock() s.add_packet(six.b("foo")) s.add_packet(socket.timeout()) s.add_packet(six.b("bar")) # s.add_packet(SSLError("The read operation timed out")) s.add_packet(six.b("baz")) with self.assertRaises(ws.WebSocketTimeoutException): sock.frame_buffer.recv_strict(9) # if six.PY2: # with self.assertRaises(ws.WebSocketTimeoutException): # data = sock._recv_strict(9) # else: # with self.assertRaises(SSLError): # data = sock._recv_strict(9) data = sock.frame_buffer.recv_strict(9) self.assertEqual(data, six.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(six.b("\x81")) s.add_packet(socket.timeout()) s.add_packet(six.b("\x8dabcd\x29\x07\x0f\x08\x0e")) s.add_packet(socket.timeout()) s.add_packet(six.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(six.b("\x01\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C")) # OPCODE=CONT, FIN=1, MSG="the soul of wit" s.add_packet(six.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(six.b("\x01\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C")) # OPCODE=CONT, FIN=0, MSG="Brevity is " s.add_packet(six.b("\x00\x8babcd#\x10\x06\x12\x08\x16\x1aD\x08\x11C")) # OPCODE=CONT, FIN=1, MSG="the soul of wit" s.add_packet(six.b("\x80\x8fabcd\x15\n\x06D\x12\r\x16\x08A\r\x05D\x16\x0b\x17")) _, data = sock.recv_data() self.assertEqual(data, six.b("Brevity is ")) _, data = sock.recv_data() self.assertEqual(data, six.b("Brevity is ")) _, data = sock.recv_data() self.assertEqual(data, six.b("the soul of wit")) # OPCODE=CONT, FIN=0, MSG="Brevity is " s.add_packet(six.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.sock = SockMock() sock.connected = True sock.close() self.assertEqual(sock.connected, False) sock = ws.WebSocket() s = sock.sock = SockMock() sock.connected = True s.add_packet(six.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(six.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(six.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(six.b("\x00\x8eabcd\x05\x07\x02\x16A\x04\x11\r\x04\x0c\x07" "\x17MB")) # OPCODE=CONT, FIN=1, MSG="once more" s.add_packet(six.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(six.b("\x01\x89abcd5\r\x0cD\x0c\x17\x00\x0cA")) # OPCODE=PING, FIN=1, MSG="Please PONG this" s.add_packet(six.b("\x89\x90abcd1\x0e\x06\x05\x12\x07C4.,$D\x15\n\n\x17")) # OPCODE=CONT, FIN=1, MSG="of a good thing" s.add_packet(six.b("\x80\x8fabcd\x0e\x04C\x05A\x05\x0c\x0b\x05B\x17\x0c" "\x08\x0c\x04")) data = sock.recv() self.assertEqual(data, "Too much of a good thing") with self.assertRaises(ws.WebSocketConnectionClosedException): sock.recv() self.assertEqual( s.sent[0], six.b("\x8a\x90abcd1\x0e\x06\x05\x12\x07C4.,$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(u"こにゃにゃちは、世界") result = s.recv() self.assertEqual(result, "こにゃにゃちは、世界") 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") @unittest.skipUnless(TEST_SECURE_WS, "wss://echo.websocket.org doesn't work well.") def testSecureWebSocket(self): if 1: import ssl s = ws.create_connection("wss://echo.websocket.org/") self.assertNotEqual(s, None) self.assertTrue(isinstance(s.sock, ssl.SSLSocket)) s.send("Hello, World") result = s.recv() self.assertEqual(result, "Hello, World") s.send(u"こにゃにゃちは、世界") result = s.recv() self.assertEqual(result, "こにゃにゃちは、世界") s.close() #except: # pass @unittest.skipUnless(TEST_WITH_INTERNET, "Internet-requiring tests are disabled") def testWebSocketWihtCustomHeader(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") 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) 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)) 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 app = ws.WebSocketApp('ws://echo.websocket.org/', on_open=on_open, on_close=on_close) app.run_forever() self.assertFalse(isinstance(WebSocketAppTest.keep_running_open, WebSocketAppTest.NotSetYet)) self.assertFalse(isinstance(WebSocketAppTest.keep_running_close, WebSocketAppTest.NotSetYet)) self.assertEqual(True, WebSocketAppTest.keep_running_open) self.assertEqual(False, WebSocketAppTest.keep_running_close) @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(): pass def on_open(self, *args, **kwargs): """ Set the value so the test can use it later on and immediately close the connection. """ WebSocketAppTest.get_mask_key_id = id(self.get_mask_key) self.close() app = ws.WebSocketApp('ws://echo.websocket.org/', on_open=on_open, get_mask_key=my_mask_key_func) app.run_forever() # Note: We can't use 'is' for comparing the functions directly, need to use 'id'. self.assertEqual(WebSocketAppTest.get_mask_key_id, id(my_mask_key_func)) 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(six.b('\xf0\x90\x80\x80')) self.assertEqual(state, True) state = validate_utf8(six.b('\xce\xba\xe1\xbd\xb9\xcf\x83\xce\xbc\xce\xb5\xed\xa0\x80edited')) self.assertEqual(state, False) state = validate_utf8(six.b('')) self.assertEqual(state, True) 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) if "http_proxy" in os.environ: del os.environ["http_proxy"] if "https_proxy" in os.environ: del os.environ["https_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"] 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"] = "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()