'''
-import os, sys, time, errno, signal, socket, traceback, select
+import os, sys, time, errno, signal, socket, select, logging
import array, struct
from base64 import b64encode, b64decode
except ImportError:
globals()[mod] = None
print("WARNING: no '%s' module, %s" % (mod, msg))
+
if multiprocessing and sys.platform == 'win32':
# make sockets pickle-able/inheritable
import multiprocessing.reduction
-class WebSocketServer(object):
+# HTTP handler with WebSocket upgrade support
+class WebSocketRequestHandler(SimpleHTTPRequestHandler):
"""
- WebSockets server class.
- Must be sub-classed with new_client method definition.
+ WebSocket Request Handler Class, derived from SimpleHTTPRequestHandler.
+ Must be sub-classed with new_websocket_client method definition.
+ The request handler can be configured by setting optional
+ attributes on the server object:
+
+ * only_upgrade: If true, SimpleHTTPRequestHandler will not be enabled,
+ only websocket is allowed.
+ * verbose: If true, verbose logging is activated.
+ * daemon: Running as daemon, do not write to console etc
+ * record: Record raw frame data as JavaScript array into specified filename
+ * run_once: Handle a single request
+ * handler_id: A sequence number for this connection, appended to record filename
"""
-
buffer_size = 65536
- server_handshake_hybi = """HTTP/1.1 101 Switching Protocols\r
-Upgrade: websocket\r
-Connection: Upgrade\r
-Sec-WebSocket-Accept: %s\r
-"""
-
GUID = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11"
- policy_response = """<cross-domain-policy><allow-access-from domain="*" to-ports="*" /></cross-domain-policy>\n"""
+ server_version = "WebSockify"
- # An exception before the WebSocket connection was established
- class EClose(Exception):
- pass
+ protocol_version = "HTTP/1.1"
# An exception while the WebSocket client was connected
class CClose(Exception):
pass
- def __init__(self, listen_host='', listen_port=None, source_is_ipv6=False,
- verbose=False, cert='', key='', ssl_only=None,
- daemon=False, record='', web='',
- run_once=False, timeout=0, idle_timeout=0):
-
- # settings
- self.verbose = verbose
- self.listen_host = listen_host
- self.listen_port = listen_port
- self.prefer_ipv6 = source_is_ipv6
- self.ssl_only = ssl_only
- self.daemon = daemon
- self.run_once = run_once
- self.timeout = timeout
- self.idle_timeout = idle_timeout
-
- self.launch_time = time.time()
- self.ws_connection = False
- self.handler_id = 1
-
- # Make paths settings absolute
- self.cert = os.path.abspath(cert)
- self.key = self.web = self.record = ''
- if key:
- self.key = os.path.abspath(key)
- if web:
- self.web = os.path.abspath(web)
- if record:
- self.record = os.path.abspath(record)
-
- if self.web:
- os.chdir(self.web)
-
- # Sanity checks
- if not ssl and self.ssl_only:
- raise Exception("No 'ssl' module and SSL-only specified")
- if self.daemon and not resource:
- raise Exception("Module 'resource' required to daemonize")
-
- # Show configuration
- print("WebSocket server settings:")
- print(" - Listen on %s:%s" % (
- self.listen_host, self.listen_port))
- print(" - Flash security policy server")
- if self.web:
- print(" - Web server. Web root: %s" % self.web)
- if ssl:
- if os.path.exists(self.cert):
- print(" - SSL/TLS support")
- if self.ssl_only:
- print(" - Deny non-SSL/TLS connections")
- else:
- print(" - No SSL/TLS support (no cert file)")
- else:
- print(" - No SSL/TLS support (no 'ssl' module)")
- if self.daemon:
- print(" - Backgrounding (daemon)")
- if self.record:
- print(" - Recording to '%s.*'" % self.record)
-
- #
- # WebSocketServer static methods
- #
-
- @staticmethod
- def socket(host, port=None, connect=False, prefer_ipv6=False, unix_socket=None, use_ssl=False):
- """ Resolve a host (and optional port) to an IPv4 or IPv6
- address. Create a socket. Bind to it if listen is set,
- otherwise connect to it. Return the socket.
- """
- flags = 0
- if host == '':
- host = None
- if connect and not (port or unix_socket):
- raise Exception("Connect mode requires a port")
- if use_ssl and not ssl:
- raise Exception("SSL socket requested but Python SSL module not loaded.");
- if not connect and use_ssl:
- raise Exception("SSL only supported in connect mode (for now)")
- if not connect:
- flags = flags | socket.AI_PASSIVE
-
- if not unix_socket:
- addrs = socket.getaddrinfo(host, port, 0, socket.SOCK_STREAM,
- socket.IPPROTO_TCP, flags)
- if not addrs:
- raise Exception("Could not resolve host '%s'" % host)
- addrs.sort(key=lambda x: x[0])
- if prefer_ipv6:
- addrs.reverse()
- sock = socket.socket(addrs[0][0], addrs[0][1])
- if connect:
- sock.connect(addrs[0][4])
- if use_ssl:
- sock = ssl.wrap_socket(sock)
- else:
- sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
- sock.bind(addrs[0][4])
- sock.listen(100)
- else:
- sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
- sock.connect(unix_socket)
-
- return sock
-
- @staticmethod
- def daemonize(keepfd=None, chdir='/'):
- os.umask(0)
- if chdir:
- os.chdir(chdir)
- else:
- os.chdir('/')
- os.setgid(os.getgid()) # relinquish elevations
- os.setuid(os.getuid()) # relinquish elevations
-
- # Double fork to daemonize
- if os.fork() > 0: os._exit(0) # Parent exits
- os.setsid() # Obtain new process group
- if os.fork() > 0: os._exit(0) # Parent exits
-
- # Signal handling
- def terminate(a,b): os._exit(0)
- signal.signal(signal.SIGTERM, terminate)
- signal.signal(signal.SIGINT, signal.SIG_IGN)
+ def __init__(self, req, addr, server):
+ # Retrieve a few configuration variables from the server
+ self.only_upgrade = getattr(server, "only_upgrade", False)
+ self.verbose = getattr(server, "verbose", False)
+ self.daemon = getattr(server, "daemon", False)
+ self.record = getattr(server, "record", False)
+ self.run_once = getattr(server, "run_once", False)
+ self.rec = None
+ self.handler_id = getattr(server, "handler_id", False)
+ self.file_only = getattr(server, "file_only", False)
+ self.traffic = getattr(server, "traffic", False)
- # Close open files
- maxfd = resource.getrlimit(resource.RLIMIT_NOFILE)[1]
- if maxfd == resource.RLIM_INFINITY: maxfd = 256
- for fd in reversed(range(maxfd)):
- try:
- if fd != keepfd:
- os.close(fd)
- except OSError:
- _, exc, _ = sys.exc_info()
- if exc.errno != errno.EBADF: raise
+ self.logger = getattr(server, "logger", None)
+ if self.logger is None:
+ self.logger = WebSocketServer.get_logger()
- # Redirect I/O to /dev/null
- os.dup2(os.open(os.devnull, os.O_RDWR), sys.stdin.fileno())
- os.dup2(os.open(os.devnull, os.O_RDWR), sys.stdout.fileno())
- os.dup2(os.open(os.devnull, os.O_RDWR), sys.stderr.fileno())
+ SimpleHTTPRequestHandler.__init__(self, req, addr, server)
@staticmethod
def unmask(buf, hlen, plen):
b = numpy.bitwise_xor(data, mask).tostring()
if plen % 4:
- #print("Partial unmask")
+ #self.msg("Partial unmask")
mask = numpy.frombuffer(buf, dtype=numpy.dtype('B'),
offset=hlen, count=(plen % 4))
data = numpy.frombuffer(buf, dtype=numpy.dtype('B'),
elif payload_len >= 65536:
header = pack('>BBQ', b1, 127, payload_len)
- #print("Encoded: %s" % repr(header + buf))
+ #self.msg("Encoded: %s", repr(header + buf))
return header + buf, len(header), 0
@staticmethod
- def decode_hybi(buf, base64=False):
+ def decode_hybi(buf, base64=False, logger=None):
""" Decode HyBi style WebSocket packets.
Returns:
{'fin' : 0_or_1,
'close_code' : 1000,
'close_reason' : ''}
+ if logger is None:
+ logger = WebSocketServer.get_logger()
+
blen = len(buf)
f['left'] = blen
# Process 1 frame
if f['masked']:
# unmask payload
- f['payload'] = WebSocketServer.unmask(buf, f['hlen'],
+ f['payload'] = WebSocketRequestHandler.unmask(buf, f['hlen'],
f['length'])
else:
- print("Unmasked frame: %s" % repr(buf))
+ logger.debug("Unmasked frame: %s" % repr(buf))
f['payload'] = buf[(f['hlen'] + f['masked'] * 4):full_len]
if base64 and f['opcode'] in [1, 2]:
try:
f['payload'] = b64decode(f['payload'])
except:
- print("Exception while b64decoding buffer: %s" %
- repr(buf))
+ logger.exception("Exception while b64decoding buffer: %s" %
+ (repr(buf)))
raise
if f['opcode'] == 0x08:
#
- # WebSocketServer logging/output functions
+ # WebSocketRequestHandler logging/output functions
#
- def traffic(self, token="."):
- """ Show traffic flow in verbose mode. """
- if self.verbose and not self.daemon:
+ def print_traffic(self, token="."):
+ """ Show traffic flow mode. """
+ if self.traffic:
sys.stdout.write(token)
sys.stdout.flush()
- def msg(self, msg):
+ def msg(self, msg, *args, **kwargs):
""" Output message with handler_id prefix. """
- if not self.daemon:
- print("% 3d: %s" % (self.handler_id, msg))
+ prefix = "% 3d: " % self.handler_id
+ self.logger.log(logging.INFO, "%s%s" % (prefix, msg), *args, **kwargs)
- def vmsg(self, msg):
- """ Same as msg() but only if verbose. """
- if self.verbose:
- self.msg(msg)
+ def vmsg(self, msg, *args, **kwargs):
+ """ Same as msg() but as debug. """
+ prefix = "% 3d: " % self.handler_id
+ self.logger.log(logging.DEBUG, "%s%s" % (prefix, msg), *args, **kwargs)
+
+ def warn(self, msg, *args, **kwargs):
+ """ Same as msg() but as warning. """
+ prefix = "% 3d: " % self.handler_id
+ self.logger.log(logging.WARN, "%s%s" % (prefix, msg), *args, **kwargs)
#
- # Main WebSocketServer methods
+ # Main WebSocketRequestHandler methods
#
def send_frames(self, bufs=None):
""" Encode and send WebSocket frames. Any frames already
while self.send_parts:
# Send pending frames
buf = self.send_parts.pop(0)
- sent = self.client.send(buf)
+ sent = self.request.send(buf)
if sent == len(buf):
- self.traffic("<")
+ self.print_traffic("<")
else:
- self.traffic("<.")
+ self.print_traffic("<.")
self.send_parts.insert(0, buf[sent:])
break
bufs = []
tdelta = int(time.time()*1000) - self.start_time
- buf = self.client.recv(self.buffer_size)
+ buf = self.request.recv(self.buffer_size)
if len(buf) == 0:
closed = {'code': 1000, 'reason': "Client closed abruptly"}
return bufs, closed
self.recv_part = None
while buf:
- frame = self.decode_hybi(buf, base64=self.base64)
- #print("Received buf: %s, frame: %s" % (repr(buf), frame))
+ frame = self.decode_hybi(buf, base64=self.base64,
+ logger=self.logger)
+ #self.msg("Received buf: %s, frame: %s", repr(buf), frame)
if frame['payload'] == None:
# Incomplete/partial frame
- self.traffic("}.")
+ self.print_traffic("}.")
if frame['left'] > 0:
self.recv_part = buf[-frame['left']:]
break
'reason': frame['close_reason']}
break
- self.traffic("}")
+ self.print_traffic("}")
if self.rec:
start = frame['hlen']
end = frame['hlen'] + frame['length']
if frame['masked']:
- recbuf = WebSocketServer.unmask(buf, frame['hlen'],
+ recbuf = WebSocketRequestHandler.unmask(buf, frame['hlen'],
frame['length'])
else:
recbuf = buf[frame['hlen']:frame['hlen'] +
msg = pack(">H%ds" % len(reason), code, reason)
buf, h, t = self.encode_hybi(msg, opcode=0x08, base64=False)
- self.client.send(buf)
+ self.request.send(buf)
- def do_websocket_handshake(self, headers, path):
- h = self.headers = headers
- self.path = path
+ def do_websocket_handshake(self):
+ h = self.headers
prot = 'WebSocket-Protocol'
protocols = h.get('Sec-'+prot, h.get(prot, '')).split(',')
if ver in ['7', '8', '13']:
self.version = "hybi-%02d" % int(ver)
else:
- raise self.EClose('Unsupported protocol version %s' % ver)
+ self.send_error(400, "Unsupported protocol version %s" % ver)
+ return False
key = h['Sec-WebSocket-Key']
elif 'base64' in protocols:
self.base64 = True
else:
- raise self.EClose("Client must support 'binary' or 'base64' protocol")
+ self.send_error(400, "Client must support 'binary' or 'base64' protocol")
+ return False
# Generate the hash value for the accept header
accept = b64encode(sha1(s2b(key + self.GUID)).digest())
- response = self.server_handshake_hybi % b2s(accept)
+ self.send_response(101, "Switching Protocols")
+ self.send_header("Upgrade", "websocket")
+ self.send_header("Connection", "Upgrade")
+ self.send_header("Sec-WebSocket-Accept", b2s(accept))
if self.base64:
- response += "Sec-WebSocket-Protocol: base64\r\n"
+ self.send_header("Sec-WebSocket-Protocol", "base64")
else:
- response += "Sec-WebSocket-Protocol: binary\r\n"
- response += "\r\n"
+ self.send_header("Sec-WebSocket-Protocol", "binary")
+ self.end_headers()
+ return True
+ else:
+ self.send_error(400, "Missing Sec-WebSocket-Version header. Hixie protocols not supported.")
+
+ return False
+
+ def handle_websocket(self):
+ """Upgrade a connection to Websocket, if requested. If this succeeds,
+ new_websocket_client() will be called. Otherwise, False is returned.
+ """
+ if (self.headers.get('upgrade') and
+ self.headers.get('upgrade').lower() == 'websocket'):
+
+ if not self.do_websocket_handshake():
+ return False
+
+ # Indicate to server that a Websocket upgrade was done
+ self.server.ws_connection = True
+ # Initialize per client settings
+ self.send_parts = []
+ self.recv_part = None
+ self.start_time = int(time.time()*1000)
+
+ # client_address is empty with, say, UNIX domain sockets
+ client_addr = ""
+ is_ssl = False
+ try:
+ client_addr = self.client_address[0]
+ is_ssl = self.client_address[2]
+ except IndexError:
+ pass
+
+ if is_ssl:
+ self.stype = "SSL/TLS (wss://)"
+ else:
+ self.stype = "Plain non-SSL (ws://)"
+
+ self.log_message("%s: %s WebSocket connection", client_addr,
+ self.stype)
+ self.log_message("%s: Version %s, base64: '%s'", client_addr,
+ self.version, self.base64)
+ if self.path != '/':
+ self.log_message("%s: Path: '%s'", client_addr, self.path)
+
+ if self.record:
+ # Record raw frame data as JavaScript array
+ fname = "%s.%s" % (self.record,
+ self.handler_id)
+ self.log_message("opening record file: %s", fname)
+ self.rec = open(fname, 'w+')
+ encoding = "binary"
+ if self.base64: encoding = "base64"
+ self.rec.write("var VNC_frame_encoding = '%s';\n"
+ % encoding)
+ self.rec.write("var VNC_frame_data = [\n")
+
+ try:
+ self.new_websocket_client()
+ except self.CClose:
+ # Close the client
+ _, exc, _ = sys.exc_info()
+ self.send_close(exc.args[0], exc.args[1])
+ return True
+ else:
+ return False
+
+ def do_GET(self):
+ """Handle GET request. Calls handle_websocket(). If unsuccessful,
+ and web server is enabled, SimpleHTTPRequestHandler.do_GET will be called."""
+ if not self.handle_websocket():
+ if self.only_upgrade:
+ self.send_error(405, "Method Not Allowed")
+ else:
+ SimpleHTTPRequestHandler.do_GET(self)
+
+ def list_directory(self, path):
+ if self.file_only:
+ self.send_error(404, "No such file")
+ else:
+ return SimpleHTTPRequestHandler.list_directory(self, path)
+ def new_websocket_client(self):
+ """ Do something with a WebSockets client connection. """
+ raise Exception("WebSocketRequestHandler.new_websocket_client() must be overloaded")
+
+ def do_HEAD(self):
+ if self.only_upgrade:
+ self.send_error(405, "Method Not Allowed")
+ else:
+ SimpleHTTPRequestHandler.do_HEAD(self)
+
+ def finish(self):
+ if self.rec:
+ self.rec.write("'EOF'];\n")
+ self.rec.close()
+
+ def handle(self):
+ # When using run_once, we have a single process, so
+ # we cannot loop in BaseHTTPRequestHandler.handle; we
+ # must return and handle new connections
+ if self.run_once:
+ self.handle_one_request()
else:
- raise self.EClose("Missing Sec-WebSocket-Version header. Hixie protocols not supported.")
+ SimpleHTTPRequestHandler.handle(self)
+
+ def log_request(self, code='-', size='-'):
+ if self.verbose:
+ SimpleHTTPRequestHandler.log_request(self, code, size)
+
+
+class WebSocketServer(object):
+ """
+ WebSockets server class.
+ As an alternative, the standard library SocketServer can be used
+ """
- return response
+ policy_response = """<cross-domain-policy><allow-access-from domain="*" to-ports="*" /></cross-domain-policy>\n"""
+ log_prefix = "websocket"
+
+ # An exception before the WebSocket connection was established
+ class EClose(Exception):
+ pass
+ class Terminate(Exception):
+ pass
+
+ def __init__(self, RequestHandlerClass, listen_host='',
+ listen_port=None, source_is_ipv6=False,
+ verbose=False, cert='', key='', ssl_only=None,
+ daemon=False, record='', web='',
+ file_only=False,
+ run_once=False, timeout=0, idle_timeout=0, traffic=False,
+ tcp_keepalive=True, tcp_keepcnt=None, tcp_keepidle=None,
+ tcp_keepintvl=None):
+
+ # settings
+ self.RequestHandlerClass = RequestHandlerClass
+ self.verbose = verbose
+ self.listen_host = listen_host
+ self.listen_port = listen_port
+ self.prefer_ipv6 = source_is_ipv6
+ self.ssl_only = ssl_only
+ self.daemon = daemon
+ self.run_once = run_once
+ self.timeout = timeout
+ self.idle_timeout = idle_timeout
+ self.traffic = traffic
+
+ self.launch_time = time.time()
+ self.ws_connection = False
+ self.handler_id = 1
+
+ self.logger = self.get_logger()
+ self.tcp_keepalive = tcp_keepalive
+ self.tcp_keepcnt = tcp_keepcnt
+ self.tcp_keepidle = tcp_keepidle
+ self.tcp_keepintvl = tcp_keepintvl
+
+ # Make paths settings absolute
+ self.cert = os.path.abspath(cert)
+ self.key = self.web = self.record = ''
+ if key:
+ self.key = os.path.abspath(key)
+ if web:
+ self.web = os.path.abspath(web)
+ if record:
+ self.record = os.path.abspath(record)
+
+ if self.web:
+ os.chdir(self.web)
+ self.only_upgrade = not self.web
+
+ # Sanity checks
+ if not ssl and self.ssl_only:
+ raise Exception("No 'ssl' module and SSL-only specified")
+ if self.daemon and not resource:
+ raise Exception("Module 'resource' required to daemonize")
+
+ # Show configuration
+ self.msg("WebSocket server settings:")
+ self.msg(" - Listen on %s:%s",
+ self.listen_host, self.listen_port)
+ self.msg(" - Flash security policy server")
+ if self.web:
+ self.msg(" - Web server. Web root: %s", self.web)
+ if ssl:
+ if os.path.exists(self.cert):
+ self.msg(" - SSL/TLS support")
+ if self.ssl_only:
+ self.msg(" - Deny non-SSL/TLS connections")
+ else:
+ self.msg(" - No SSL/TLS support (no cert file)")
+ else:
+ self.msg(" - No SSL/TLS support (no 'ssl' module)")
+ if self.daemon:
+ self.msg(" - Backgrounding (daemon)")
+ if self.record:
+ self.msg(" - Recording to '%s.*'", self.record)
+
+ #
+ # WebSocketServer static methods
+ #
+
+ @staticmethod
+ def get_logger():
+ return logging.getLogger("%s.%s" % (
+ WebSocketServer.log_prefix,
+ WebSocketServer.__class__.__name__))
+
+ @staticmethod
+ def socket(host, port=None, connect=False, prefer_ipv6=False,
+ unix_socket=None, use_ssl=False, tcp_keepalive=True,
+ tcp_keepcnt=None, tcp_keepidle=None, tcp_keepintvl=None):
+ """ Resolve a host (and optional port) to an IPv4 or IPv6
+ address. Create a socket. Bind to it if listen is set,
+ otherwise connect to it. Return the socket.
+ """
+ flags = 0
+ if host == '':
+ host = None
+ if connect and not (port or unix_socket):
+ raise Exception("Connect mode requires a port")
+ if use_ssl and not ssl:
+ raise Exception("SSL socket requested but Python SSL module not loaded.");
+ if not connect and use_ssl:
+ raise Exception("SSL only supported in connect mode (for now)")
+ if not connect:
+ flags = flags | socket.AI_PASSIVE
+
+ if not unix_socket:
+ addrs = socket.getaddrinfo(host, port, 0, socket.SOCK_STREAM,
+ socket.IPPROTO_TCP, flags)
+ if not addrs:
+ raise Exception("Could not resolve host '%s'" % host)
+ addrs.sort(key=lambda x: x[0])
+ if prefer_ipv6:
+ addrs.reverse()
+ sock = socket.socket(addrs[0][0], addrs[0][1])
+
+ if tcp_keepalive:
+ sock.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1)
+ if tcp_keepcnt:
+ sock.setsockopt(socket.SOL_TCP, socket.TCP_KEEPCNT,
+ tcp_keepcnt)
+ if tcp_keepidle:
+ sock.setsockopt(socket.SOL_TCP, socket.TCP_KEEPIDLE,
+ tcp_keepidle)
+ if tcp_keepintvl:
+ sock.setsockopt(socket.SOL_TCP, socket.TCP_KEEPINTVL,
+ tcp_keepintvl)
+
+ if connect:
+ sock.connect(addrs[0][4])
+ if use_ssl:
+ sock = ssl.wrap_socket(sock)
+ else:
+ sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+ sock.bind(addrs[0][4])
+ sock.listen(100)
+ else:
+ sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
+ sock.connect(unix_socket)
+
+ return sock
+
+ @staticmethod
+ def daemonize(keepfd=None, chdir='/'):
+ os.umask(0)
+ if chdir:
+ os.chdir(chdir)
+ else:
+ os.chdir('/')
+ os.setgid(os.getgid()) # relinquish elevations
+ os.setuid(os.getuid()) # relinquish elevations
+
+ # Double fork to daemonize
+ if os.fork() > 0: os._exit(0) # Parent exits
+ os.setsid() # Obtain new process group
+ if os.fork() > 0: os._exit(0) # Parent exits
+
+ # Signal handling
+ signal.signal(signal.SIGTERM, signal.SIG_IGN)
+ signal.signal(signal.SIGINT, signal.SIG_IGN)
+
+ # Close open files
+ maxfd = resource.getrlimit(resource.RLIMIT_NOFILE)[1]
+ if maxfd == resource.RLIM_INFINITY: maxfd = 256
+ for fd in reversed(range(maxfd)):
+ try:
+ if fd != keepfd:
+ os.close(fd)
+ except OSError:
+ _, exc, _ = sys.exc_info()
+ if exc.errno != errno.EBADF: raise
+
+ # Redirect I/O to /dev/null
+ os.dup2(os.open(os.devnull, os.O_RDWR), sys.stdin.fileno())
+ os.dup2(os.open(os.devnull, os.O_RDWR), sys.stdout.fileno())
+ os.dup2(os.open(os.devnull, os.O_RDWR), sys.stderr.fileno())
def do_handshake(self, sock, address):
"""
- Send a WebSockets handshake server response.
- Return the socket for this WebSocket client.
"""
- stype = ""
ready = select.select([sock], [], [], 3)[0]
else:
raise
- self.scheme = "wss"
- stype = "SSL/TLS (wss://)"
-
elif self.ssl_only:
raise self.EClose("non-SSL connection received but disallowed")
else:
retsock = sock
- self.scheme = "ws"
- stype = "Plain non-SSL (ws://)"
- wsh = WSRequestHandler(retsock, address, not self.web)
- if wsh.last_code == 101:
- # Continue on to handle WebSocket upgrade
- pass
- elif wsh.last_code == 405:
- raise self.EClose("Normal web request received but disallowed")
- elif wsh.last_code < 200 or wsh.last_code >= 300:
- raise self.EClose(wsh.last_message)
- elif self.verbose:
- raise self.EClose(wsh.last_message)
- else:
- raise self.EClose("")
+ # If the address is like (host, port), we are extending it
+ # with a flag indicating SSL. Not many other options
+ # available...
+ if len(address) == 2:
+ address = (address[0], address[1], (retsock != sock))
- response = self.do_websocket_handshake(wsh.headers, wsh.path)
+ self.RequestHandlerClass(retsock, address, self)
- self.msg("%s: %s WebSocket connection" % (address[0], stype))
- self.msg("%s: Version %s, base64: '%s'" % (address[0],
- self.version, self.base64))
- if self.path != '/':
- self.msg("%s: Path: '%s'" % (address[0], self.path))
+ # Return the WebSockets socket which may be SSL wrapped
+ return retsock
+ #
+ # WebSocketServer logging/output functions
+ #
- # Send server WebSockets handshake response
- #self.msg("sending response [%s]" % response)
- retsock.send(s2b(response))
+ def msg(self, *args, **kwargs):
+ """ Output message as info """
+ self.logger.log(logging.INFO, *args, **kwargs)
- # Return the WebSockets socket which may be SSL wrapped
- return retsock
+ def vmsg(self, *args, **kwargs):
+ """ Same as msg() but as debug. """
+ self.logger.log(logging.DEBUG, *args, **kwargs)
+
+ def warn(self, *args, **kwargs):
+ """ Same as msg() but as warning. """
+ self.logger.log(logging.WARN, *args, **kwargs)
#
#self.vmsg("Running poll()")
pass
+ def terminate(self):
+ raise self.Terminate()
+
+ def multiprocessing_SIGCHLD(self, sig, stack):
+ self.vmsg('Reaing zombies, active child count is %s', len(multiprocessing.active_children()))
+
def fallback_SIGCHLD(self, sig, stack):
# Reap zombies when using os.fork() (python 2.4)
self.vmsg("Got SIGCHLD, reaping zombies")
def do_SIGINT(self, sig, stack):
self.msg("Got SIGINT, exiting")
- sys.exit(0)
+ self.terminate()
+
+ def do_SIGTERM(self, sig, stack):
+ self.msg("Got SIGTERM, exiting")
+ self.terminate()
def top_new_client(self, startsock, address):
""" Do something with a WebSockets client connection. """
- # Initialize per client settings
- self.send_parts = []
- self.recv_part = None
- self.base64 = False
- self.rec = None
- self.start_time = int(time.time()*1000)
-
# handler process
+ client = None
try:
try:
- self.client = self.do_handshake(startsock, address)
-
- if self.record:
- # Record raw frame data as JavaScript array
- fname = "%s.%s" % (self.record,
- self.handler_id)
- self.msg("opening record file: %s" % fname)
- self.rec = open(fname, 'w+')
- encoding = "binary"
- if self.base64: encoding = "base64"
- self.rec.write("var VNC_frame_encoding = '%s';\n"
- % encoding)
- self.rec.write("var VNC_frame_data = [\n")
-
- self.ws_connection = True
- self.new_client()
- except self.CClose:
- # Close the client
- _, exc, _ = sys.exc_info()
- if self.client:
- self.send_close(exc.args[0], exc.args[1])
+ client = self.do_handshake(startsock, address)
except self.EClose:
_, exc, _ = sys.exc_info()
# Connection was not a WebSockets connection
if exc.args[0]:
self.msg("%s: %s" % (address[0], exc.args[0]))
+ except WebSocketServer.Terminate:
+ raise
except Exception:
_, exc, _ = sys.exc_info()
self.msg("handler exception: %s" % str(exc))
- if self.verbose:
- self.msg(traceback.format_exc())
+ self.vmsg("exception", exc_info=True)
finally:
- if self.rec:
- self.rec.write("'EOF'];\n")
- self.rec.close()
- if self.client and self.client != startsock:
+ if client and client != startsock:
# Close the SSL wrapped socket
# Original socket closed by caller
- self.client.close()
-
- def new_client(self):
- """ Do something with a WebSockets client connection. """
- raise("WebSocketServer.new_client() must be overloaded")
+ client.close()
def start_server(self):
"""
Daemonize if requested. Listen for for connections. Run
do_handshake() method for each connection. If the connection
- is a WebSockets client then call new_client() method (which must
+ is a WebSockets client then call new_websocket_client() method (which must
be overridden) for each new client connection.
"""
- lsock = self.socket(self.listen_host, self.listen_port, False, self.prefer_ipv6)
+ lsock = self.socket(self.listen_host, self.listen_port, False,
+ self.prefer_ipv6,
+ tcp_keepalive=self.tcp_keepalive,
+ tcp_keepcnt=self.tcp_keepcnt,
+ tcp_keepidle=self.tcp_keepidle,
+ tcp_keepintvl=self.tcp_keepintvl)
if self.daemon:
self.daemonize(keepfd=lsock.fileno(), chdir=self.web)
self.started() # Some things need to happen after daemonizing
- # Allow override of SIGINT
+ # Allow override of signals
+ original_signals = {
+ signal.SIGINT: signal.getsignal(signal.SIGINT),
+ signal.SIGTERM: signal.getsignal(signal.SIGTERM),
+ signal.SIGCHLD: signal.getsignal(signal.SIGCHLD),
+ }
signal.signal(signal.SIGINT, self.do_SIGINT)
+ signal.signal(signal.SIGTERM, self.do_SIGTERM)
if not multiprocessing:
# os.fork() (python 2.4) child reaper
signal.signal(signal.SIGCHLD, self.fallback_SIGCHLD)
+ else:
+ # make sure that _cleanup is called when children die
+ # by calling active_children on SIGCHLD
+ signal.signal(signal.SIGCHLD, self.multiprocessing_SIGCHLD)
last_active_time = self.launch_time
- while True:
- try:
+ try:
+ while True:
try:
- self.client = None
- startsock = None
- pid = err = 0
- child_count = 0
-
- if multiprocessing and self.idle_timeout:
- child_count = len(multiprocessing.active_children())
-
- time_elapsed = time.time() - self.launch_time
- if self.timeout and time_elapsed > self.timeout:
- self.msg('listener exit due to --timeout %s'
- % self.timeout)
- break
-
- if self.idle_timeout:
- idle_time = 0
- if child_count == 0:
- idle_time = time.time() - last_active_time
- else:
- idle_time = 0
- last_active_time = time.time()
-
- if idle_time > self.idle_timeout and child_count == 0:
- self.msg('listener exit due to --idle-timeout %s'
- % self.idle_timeout)
- break
-
try:
- self.poll()
+ startsock = None
+ pid = err = 0
+ child_count = 0
+
+ if multiprocessing:
+ # Collect zombie child processes
+ child_count = len(multiprocessing.active_children())
+
+ time_elapsed = time.time() - self.launch_time
+ if self.timeout and time_elapsed > self.timeout:
+ self.msg('listener exit due to --timeout %s'
+ % self.timeout)
+ break
- ready = select.select([lsock], [], [], 1)[0]
- if lsock in ready:
- startsock, address = lsock.accept()
- else:
- continue
- except Exception:
- _, exc, _ = sys.exc_info()
- if hasattr(exc, 'errno'):
- err = exc.errno
- elif hasattr(exc, 'args'):
- err = exc.args[0]
- else:
- err = exc[0]
- if err == errno.EINTR:
- self.vmsg("Ignoring interrupted syscall")
- continue
- else:
+ if self.idle_timeout:
+ idle_time = 0
+ if child_count == 0:
+ idle_time = time.time() - last_active_time
+ else:
+ idle_time = 0
+ last_active_time = time.time()
+
+ if idle_time > self.idle_timeout and child_count == 0:
+ self.msg('listener exit due to --idle-timeout %s'
+ % self.idle_timeout)
+ break
+
+ try:
+ self.poll()
+
+ ready = select.select([lsock], [], [], 1)[0]
+ if lsock in ready:
+ startsock, address = lsock.accept()
+ else:
+ continue
+ except self.Terminate:
raise
-
- if self.run_once:
- # Run in same process if run_once
- self.top_new_client(startsock, address)
- if self.ws_connection :
- self.msg('%s: exiting due to --run-once'
- % address[0])
- break
- elif multiprocessing:
- self.vmsg('%s: new handler Process' % address[0])
- p = multiprocessing.Process(
- target=self.top_new_client,
- args=(startsock, address))
- p.start()
- # child will not return
- else:
- # python 2.4
- self.vmsg('%s: forking handler' % address[0])
- pid = os.fork()
- if pid == 0:
- # child handler process
+ except Exception:
+ _, exc, _ = sys.exc_info()
+ if hasattr(exc, 'errno'):
+ err = exc.errno
+ elif hasattr(exc, 'args'):
+ err = exc.args[0]
+ else:
+ err = exc[0]
+ if err == errno.EINTR:
+ self.vmsg("Ignoring interrupted syscall")
+ continue
+ else:
+ raise
+
+ if self.run_once:
+ # Run in same process if run_once
self.top_new_client(startsock, address)
- break # child process exits
-
- # parent process
- self.handler_id += 1
-
- except KeyboardInterrupt:
- _, exc, _ = sys.exc_info()
- print("In KeyboardInterrupt")
- pass
- except SystemExit:
- _, exc, _ = sys.exc_info()
- print("In SystemExit")
- break
- except Exception:
- _, exc, _ = sys.exc_info()
- self.msg("handler exception: %s" % str(exc))
- if self.verbose:
- self.msg(traceback.format_exc())
-
- finally:
- if startsock:
- startsock.close()
-
- # Close listen port
- self.vmsg("Closing socket listening at %s:%s"
- % (self.listen_host, self.listen_port))
- lsock.close()
-
+ if self.ws_connection :
+ self.msg('%s: exiting due to --run-once'
+ % address[0])
+ break
+ elif multiprocessing:
+ self.vmsg('%s: new handler Process' % address[0])
+ p = multiprocessing.Process(
+ target=self.top_new_client,
+ args=(startsock, address))
+ p.start()
+ # child will not return
+ else:
+ # python 2.4
+ self.vmsg('%s: forking handler' % address[0])
+ pid = os.fork()
+ if pid == 0:
+ # child handler process
+ self.top_new_client(startsock, address)
+ break # child process exits
+
+ # parent process
+ self.handler_id += 1
+
+ except (self.Terminate, SystemExit, KeyboardInterrupt):
+ self.msg("In exit")
+ break
+ except Exception:
+ self.msg("handler exception: %s", str(exc))
+ self.vmsg("exception", exc_info=True)
-# HTTP handler with WebSocket upgrade support
-class WSRequestHandler(SimpleHTTPRequestHandler):
- def __init__(self, req, addr, only_upgrade=False):
- self.only_upgrade = only_upgrade # only allow upgrades
- SimpleHTTPRequestHandler.__init__(self, req, addr, object())
+ finally:
+ if startsock:
+ startsock.close()
+ finally:
+ # Close listen port
+ self.vmsg("Closing socket listening at %s:%s",
+ self.listen_host, self.listen_port)
+ lsock.close()
- def do_GET(self):
- if (self.headers.get('upgrade') and
- self.headers.get('upgrade').lower() == 'websocket'):
-
- # Just indicate that an WebSocket upgrade is needed
- self.last_code = 101
- self.last_message = "101 Switching Protocols"
- elif self.only_upgrade:
- # Normal web request responses are disabled
- self.last_code = 405
- self.last_message = "405 Method Not Allowed"
- else:
- SimpleHTTPRequestHandler.do_GET(self)
+ # Restore signals
+ for sig, func in original_signals.items():
+ signal.signal(sig, func)
- def send_response(self, code, message=None):
- # Save the status code
- self.last_code = code
- SimpleHTTPRequestHandler.send_response(self, code, message)
- def log_message(self, f, *args):
- # Save instead of printing
- self.last_message = f % args