websocket.py: generic code from wsproxy and wstest.

websocket.py

+#!/usr/bin/python
+
+'''
+Python WebSocket library with support for "wss://" encryption.
+
+You can make a cert/key with openssl using:
+openssl req -new -x509 -days 365 -nodes -out self.pem -keyout self.pem
+as taken from http://docs.python.org/dev/library/ssl.html#certificates
+
+'''
+
+import sys, socket, ssl, traceback
+from base64 import b64encode, b64decode
+
+client_settings = {}
+send_seq = 0
+
+server_handshake = """HTTP/1.1 101 Web Socket Protocol Handshake\r
+Upgrade: WebSocket\r
+Connection: Upgrade\r
+WebSocket-Origin: %s\r
+WebSocket-Location: %s://%s%s\r
+WebSocket-Protocol: sample\r
+\r
+"""
+
+policy_response = """<cross-domain-policy><allow-access-from domain="*" to-ports="*" /></cross-domain-policy>\n"""
+
+def traffic(token="."):
+    sys.stdout.write(token)
+    sys.stdout.flush()
+
+def decode(buf):
+    """ Parse out WebSocket packets. """
+    if buf.count('\xff') > 1:
+        return [b64decode(d[1:]) for d in buf.split('\xff')]
+    else:
+        return [b64decode(buf[1:-1])]
+
+def encode(buf):
+    global send_seq
+    if client_settings.get("b64encode"):
+        buf = b64encode(buf)
+
+    if client_settings.get("seq_num"):
+        send_seq += 1
+        return "\x00%d:%s\xff" % (send_seq-1, buf)
+    else:
+        return "\x00%s\xff" % buf
+
+
+def do_handshake(sock):
+    global client_settings, send_seq
+    send_seq = 0
+    # Peek, but don't read the data
+    handshake = sock.recv(1024, socket.MSG_PEEK)
+    #print "Handshake [%s]" % repr(handshake)
+    if handshake.startswith("<policy-file-request/>"):
+        handshake = sock.recv(1024)
+        print "Sending flash policy response"
+        sock.send(policy_response)
+        sock.close()
+        return False
+    elif handshake.startswith("\x16"):
+        retsock = ssl.wrap_socket(
+                sock,
+                server_side=True,
+                certfile='self.pem',
+                ssl_version=ssl.PROTOCOL_TLSv1)
+        scheme = "wss"
+        print "Using SSL/TLS"
+    else:
+        retsock = sock
+        scheme = "ws"
+        print "Using plain (not SSL) socket"
+    handshake = retsock.recv(4096)
+    req_lines = handshake.split("\r\n")
+    _, path, _ = req_lines[0].split(" ")
+    _, origin = req_lines[4].split(" ")
+    _, host = req_lines[3].split(" ")
+
+    # Parse settings from the path
+    cvars = path.partition('?')[2].partition('#')[0].split('&')
+    for cvar in [c for c in cvars if c]:
+        name, _, value = cvar.partition('=')
+        client_settings[name] = value and value or True
+
+    print "client_settings:", client_settings
+
+    retsock.send(server_handshake % (origin, scheme, host, path))
+    return retsock
+
+def start_server(listen_port, handler):
+    lsock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
+    lsock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+    lsock.bind(('', listen_port))
+    lsock.listen(100)
+    while True:
+        try:
+            csock = None
+            print 'waiting for connection on port %s' % listen_port
+            startsock, address = lsock.accept()
+            print 'Got client connection from %s' % address[0]
+            csock = do_handshake(startsock)
+            if not csock: continue
+
+            handler(csock)
+
+        except Exception:
+            print "Ignoring exception:"
+            print traceback.format_exc()
+            if csock: csock.close()
+

wsproxy.py

@@ -9,24 +9,11 @@ as taken from http://docs.python.org/dev/library/ssl.html#certificates
 
 '''
 
-import sys, os, socket, ssl, time, traceback, re
-from base64 import b64encode, b64decode
+import sys, socket, ssl
 from select import select
+from websocket import *
 
 buffer_size = 65536
-send_seq = 0
-client_settings = {}
-
-server_handshake = """HTTP/1.1 101 Web Socket Protocol Handshake\r
-Upgrade: WebSocket\r
-Connection: Upgrade\r
-WebSocket-Origin: %s\r
-WebSocket-Location: %s://%s%s\r
-WebSocket-Protocol: sample\r
-\r
-"""
-
-policy_response = """<cross-domain-policy><allow-access-from domain="*" to-ports="*" /></cross-domain-policy>\n"""
 
 traffic_legend = """
 Traffic Legend:
@@ -40,22 +27,8 @@ Traffic Legend:
     <. - Client send partial
 """
 
-
-def traffic(token="."):
-    sys.stdout.write(token)
-    sys.stdout.flush()
-
-def decode(buf):
-    """ Parse out WebSocket packets. """
-    if buf.count('\xff') > 1:
-        traffic(str(buf.count('\xff')))
-        return [b64decode(d[1:]) for d in buf.split('\xff')]
-    else:
-        return [b64decode(buf[1:-1])]
-
-def proxy(client, target):
+def do_proxy(client, target):
     """ Proxy WebSocket to normal socket. """
-    global send_seq
     cqueue = []
     cpartial = ""
     tqueue = []
@@ -66,15 +39,14 @@ def proxy(client, target):
         if excepts: raise Exception("Socket exception")
 
         if tqueue and target in outs:
-            #print "Target send: %s" % repr(tqueue[0])
-            ##log.write("Target send: %s\n" % map(ord, tqueue[0]))
             dat = tqueue.pop(0)
             sent = target.send(dat)
             if sent == len(dat):
                 traffic(">")
             else:
                 tqueue.insert(0, dat[sent:])
-                traffic(">.")
+                traffic(".>")
+            ##log.write("Target send: %s\n" % map(ord, dat))
 
         if cqueue and client in outs:
             dat = cqueue.pop(0)
@@ -92,24 +64,17 @@ def proxy(client, target):
             buf = target.recv(buffer_size)
             if len(buf) == 0: raise Exception("Target closed")
 
-            ##log.write("Target recv (%d): %s\n" % (len(buf), map(ord, buf)))
-
-            if client_settings.get("b64encode"):
-                buf = b64encode(buf)
-
-            if client_settings.get("seq_num"):
-                cqueue.append("\x00%d:%s\xff" % (send_seq, buf))
-                send_seq += 1
-            else:
-                cqueue.append("\x00%s\xff" % buf)
-
+            cqueue.append(encode(buf))
             traffic("{")
+            ##log.write("Target recv (%d): %s\n" % (len(buf), map(ord, buf)))
 
         if client in ins:
             buf = client.recv(buffer_size)
             if len(buf) == 0: raise Exception("Client closed")
 
-            if buf[-1] == "\xff":
+            if buf[-1] == '\xff':
+                if buf.count('\xff') > 1:
+                    traffic(str(buf.count('\xff')))
                 traffic("}")
                 ##log.write("Client recv (%d): %s\n" % (len(buf), repr(buf)))
                 if cpartial:
@@ -118,78 +83,24 @@ def proxy(client, target):
                 else:
                     tqueue.extend(decode(buf))
             else:
-                traffic("}.")
+                traffic(".}")
                 ##log.write("Client recv partial (%d): %s\n" % (len(buf), repr(buf)))
                 cpartial = cpartial + buf
 
+def proxy_handler(client):
+    global target_host, target_port
+
+    print "Connecting to: %s:%s" % (target_host, target_port)
+    tsock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
+    tsock.connect((target_host, target_port))
 
-def do_handshake(sock):
-    global client_settings
-    # Peek, but don't read the data
-    handshake = sock.recv(1024, socket.MSG_PEEK)
-    #print "Handshake [%s]" % repr(handshake)
-    if handshake.startswith("<policy-file-request/>"):
-        handshake = sock.recv(1024)
-        print "Sending flash policy response"
-        sock.send(policy_response)
-        sock.close()
-        return False
-    elif handshake.startswith("\x16"):
-        retsock = ssl.wrap_socket(
-                sock,
-                server_side=True,
-                certfile='self.pem',
-                ssl_version=ssl.PROTOCOL_TLSv1)
-        scheme = "wss"
-        print "Using SSL/TLS"
-    else:
-        retsock = sock
-        scheme = "ws"
-        print "Using plain (not SSL) socket"
-    handshake = retsock.recv(4096)
-    req_lines = handshake.split("\r\n")
-    _, path, _ = req_lines[0].split(" ")
-    _, origin = req_lines[4].split(" ")
-    _, host = req_lines[3].split(" ")
-
-    # Parse settings from the path
-    cvars = path.partition('?')[2].partition('#')[0].split('&')
-    for cvar in [c for c in cvars if c]:
-        name, _, value = cvar.partition('=')
-        client_settings[name] = value and value or True
-
-    print "client_settings:", client_settings
-
-    retsock.send(server_handshake % (origin, scheme, host, path))
-    return retsock
-
-def start_server(listen_port, target_host, target_port):
-    global send_seq
-    lsock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
-    lsock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
-    lsock.bind(('', listen_port))
-    lsock.listen(100)
     print traffic_legend
-    while True:
-        try:
-            csock = tsock = None
-            print 'waiting for connection on port %s' % listen_port
-            startsock, address = lsock.accept()
-            print 'Got client connection from %s' % address[0]
-            csock = do_handshake(startsock)
-            if not csock: continue
-            print "Connecting to: %s:%s" % (target_host, target_port)
-            tsock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
-            tsock.connect((target_host, target_port))
-
-            send_seq = 0
-            proxy(csock, tsock)
-
-        except Exception:
-            print "Ignoring exception:"
-            print traceback.format_exc()
-            if csock: csock.close()
-            if tsock: tsock.close()
+
+    try:
+        do_proxy(client, tsock)
+    except:
+        if tsock: tsock.close()
+        raise
 
 if __name__ == '__main__':
     ##log = open("ws.log", 'w')
@@ -201,4 +112,4 @@ if __name__ == '__main__':
     except:
         print "Usage: <listen_port> <target_host> <target_port>"
         sys.exit(1)
-    start_server(listen_port, target_host, target_port)
+    start_server(listen_port, proxy_handler)

wstest.html

@@ -224,8 +224,8 @@
         }
 
         window.onload = function() {
-            WebSocket.__swfLocation = "include/web-socket-js/WebSocketMain.swf";
             console.log("onload");
+            WebSocket.__swfLocation = "include/web-socket-js/WebSocketMain.swf";
             var url = document.location.href;
             $('host').value = (url.match(/host=([^&#]*)/) || ['',''])[1];
             $('port').value = (url.match(/port=([^&#]*)/) || ['',''])[1];

wstest.py

 #!/usr/bin/python
 
-import sys, os, socket, time, traceback, random, time
+'''
+WebSocket server-side load test program. Sends and receives traffic
+that has a random payload (length and content) that is checksummed and
+given a sequence number. Any errors are reported and counted.
+'''
+
+import sys, socket, ssl, time, traceback
+import random, time
 from base64 import b64encode, b64decode
 from select import select
+from websocket import *
 
 buffer_size = 65536
 recv_cnt = send_cnt = 0
 
-server_handshake = """HTTP/1.1 101 Web Socket Protocol Handshake\r
-Upgrade: WebSocket\r
-Connection: Upgrade\r
-WebSocket-Origin: %s\r
-WebSocket-Location: ws://%s%s\r
-WebSocket-Protocol: sample\r
-\r
-"""
-
-policy_response = """<cross-domain-policy><allow-access-from domain="*" to-ports="*" /></cross-domain-policy>"""
-
-def do_handshake(client):
-    handshake = client.recv(1024)
-    print "Handshake [%s]" % handshake
-    if handshake.startswith("<policy-file-request/>"):
-        print "Sending flash policy response"
-        client.send(policy_response)
-        client.close()
-        return False
-    req_lines = handshake.split("\r\n")
-    _, path, _ = req_lines[0].split(" ")
-    _, origin = req_lines[4].split(" ")
-    _, host = req_lines[3].split(" ")
-    client.send(server_handshake % (origin, host, path))
-    return True
-
-def traffic(token="."):
-    sys.stdout.write(token)
-    sys.stdout.flush()
-
-
-def decode(buf):
-    """ Parse out WebSocket packets. """
-    if buf.count('\xff') > 1:
-        traffic(str(buf.count('\xff')))
-        return [b64decode(d[1:]) for d in buf.split('\xff')]
-    else:
-        return [b64decode(buf[1:-1])]
 
 def check(buf):
     global recv_cnt
@@ -103,7 +73,7 @@ def check(buf):
 
 
 def generate():
-    global send_cnt
+    global send_cnt, rand_array
     length = random.randint(10, 100000)
     numlist = rand_array[100000-length:]
     # Error in length
@@ -156,31 +126,19 @@ def responder(client, delay=10):
             client.send(generate())
             traffic("<")
 
-def start_server(listen_port, delay=10):
-    global errors, send_cnt, recv_cnt
-    lsock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
-    lsock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
-    lsock.bind(('', listen_port))
-    lsock.listen(100)
-    while True:
-        try:
-            csock = None
-            print 'listening on port %s' % listen_port
-            csock, address = lsock.accept()
-            print 'Got client connection from %s' % address[0]
-            if not do_handshake(csock):
-                continue
-
-            send_cnt = 0
-            recv_cnt = 0
-            responder(csock, delay=delay)
-
-        except Exception:
-            print "accumulated errors:", errors
-            errors = 0
-            print "Ignoring exception:"
-            print traceback.format_exc()
-            if csock: csock.close()
+def test_handler(client):
+    global errors, delay, send_cnt, recv_cnt
+
+    send_cnt = 0
+    recv_cnt = 0
+
+    try:
+        responder(client, delay)
+    except:
+        print "accumulated errors:", errors
+        errors = 0
+        raise
+
 
 if __name__ == '__main__':
     errors = 0
@@ -200,4 +158,4 @@ if __name__ == '__main__':
     for i in range(0, 100000):
         rand_array.append(random.randint(0, 9))
 
-    start_server(listen_port, delay=delay)
+    start_server(listen_port, test_handler)