Tools/idle/RemoteInterp.py - platform/external/python/cpython3 - Gitiles

 import select
 import socket
 import struct
 import sys
 import types

 VERBOSE = None

 class SocketProtocol:
     """A simple protocol for sending strings across a socket"""
     BUF_SIZE = 8192

     def __init__(self, sock):
         self.sock = sock
         self._buffer = ''
         self._closed = 0

     def close(self):
         self._closed = 1
         self.sock.close()

     def send(self, buf):
         """Encode buf and write it on the socket"""
         if VERBOSE:
             VERBOSE.write('send %d:%s\n' % (len(buf), `buf`))
         self.sock.send('%d:%s' % (len(buf), buf))

     def receive(self, timeout=0):
         """Get next complete string from socket or return None

         Raise EOFError on EOF
         """
         buf = self._read_from_buffer()
         if buf is not None:
             return buf
         recvbuf = self._read_from_socket(timeout)
         if recvbuf is None:
             return None
         if recvbuf == '' and self._buffer == '':
             raise EOFError
         if VERBOSE:
             VERBOSE.write('recv %s\n' % `recvbuf`)
         self._buffer = self._buffer + recvbuf
         r = self._read_from_buffer()
         return r

     def _read_from_socket(self, timeout):
         """Does not block"""
         if self._closed:
             return ''
         if timeout is not None:
             r, w, x = select.select([self.sock], [], [], timeout)
         if timeout is None or r:
             return self.sock.recv(self.BUF_SIZE)
         else:
             return None

     def _read_from_buffer(self):
         buf = self._buffer
         i = buf.find(':')
         if i == -1:
             return None
         buflen = int(buf[:i])
         enclen = i + 1 + buflen
         if len(buf) >= enclen:
             s = buf[i+1:enclen]
             self._buffer = buf[enclen:]
             return s
         else:
             self._buffer = buf
         return None

 # helpers for registerHandler method below

 def get_methods(obj):
     methods = []
     for name in dir(obj):
         attr = getattr(obj, name)
         if callable(attr):
             methods.append(name)
     if type(obj) == types.InstanceType:
         methods = methods + get_methods(obj.__class__)
     if type(obj) == types.ClassType:
         for super in obj.__bases__:
             methods = methods + get_methods(super)
     return methods

 class CommandProtocol:
     def __init__(self, sockp):
         self.sockp = sockp
         self.seqno = 0
         self.handlers = {}

     def close(self):
         self.sockp.close()
         self.handlers.clear()

     def registerHandler(self, handler):
         """A Handler is an object with handle_XXX methods"""
         for methname in get_methods(handler):
             if methname[:7] == "handle_":
                 name = methname[7:]
                 self.handlers[name] = getattr(handler, methname)

     def send(self, cmd, arg='', seqno=None):
         if arg:
             msg = "%s %s" % (cmd, arg)
         else:
             msg = cmd
         if seqno is None:
             seqno = self.get_seqno()
         msgbuf = self.encode_seqno(seqno) + msg
         self.sockp.send(msgbuf)
         if cmd == "reply":
             return
         reply = self.sockp.receive(timeout=None)
         r_cmd, r_arg, r_seqno = self._decode_msg(reply)
         assert r_seqno == seqno and r_cmd == "reply", "bad reply"
         return r_arg

     def _decode_msg(self, msg):
         seqno = self.decode_seqno(msg[:self.SEQNO_ENC_LEN])
         msg = msg[self.SEQNO_ENC_LEN:]
         parts = msg.split(" ", 2)
         if len(parts) == 1:
             cmd = msg
             arg = ''
         else:
             cmd = parts[0]
             arg = parts[1]
         return cmd, arg, seqno

     def dispatch(self):
         msg = self.sockp.receive()
         if msg is None:
             return
         cmd, arg, seqno = self._decode_msg(msg)
         self._current_reply = seqno
         h = self.handlers.get(cmd, self.default_handler)
         try:
             r = h(arg)
         except TypeError, msg:
             raise TypeError, "handle_%s: %s" % (cmd, msg)
         if self._current_reply is None:
             if r is not None:
                 sys.stderr.write("ignoring %s return value type %s\n" % \
                                  (cmd, type(r).__name__))
             return
         if r is None:
             r = ''
         if type(r) != types.StringType:
             raise ValueError, "invalid return type for %s" % cmd
         self.send("reply", r, seqno=seqno)

     def reply(self, arg=''):
         """Send a reply immediately

         otherwise reply will be sent when handler returns
         """
         self.send("reply", arg, self._current_reply)
         self._current_reply = None

     def default_handler(self, arg):
         sys.stderr.write("WARNING: unhandled message %s\n" % arg)
         return ''

     SEQNO_ENC_LEN = 4

     def get_seqno(self):
         seqno = self.seqno
         self.seqno = seqno + 1
         return seqno

     def encode_seqno(self, seqno):
         return struct.pack("I", seqno)

     def decode_seqno(self, buf):
         return struct.unpack("I", buf)[0]


 class StdioRedirector:
     """Redirect sys.std{in,out,err} to a set of file-like objects"""

     def __init__(self, stdin, stdout, stderr):
         self.stdin = stdin
         self.stdout = stdout
         self.stderr = stderr

     def redirect(self):
         self.save()
         sys.stdin = self.stdin
         sys.stdout = self.stdout
         sys.stderr = self.stderr

     def save(self):
         self._stdin = sys.stdin
         self._stdout = sys.stdout
         self._stderr = sys.stderr

     def restore(self):
         sys.stdin = self._stdin
         sys.stdout = self._stdout
         sys.stderr = self._stderr

 class IOWrapper:
     """Send output from a file-like object across a SocketProtocol

     XXX Should this be more tightly integrated with the CommandProtocol?
     """

     def __init__(self, name, cmdp):
         self.name = name
         self.cmdp = cmdp
         self.buffer = []

 class InputWrapper(IOWrapper):
     def write(self, buf):
         # XXX what should this do on Windows?
         raise IOError, (9, '[Errno 9] Bad file descriptor')

     def read(self, arg=None):
         if arg is not None:
             if arg <= 0:
                 return ''
         else:
             arg = 0
         return self.cmdp.send(self.name, "read,%s" % arg)

     def readline(self):
         return self.cmdp.send(self.name, "readline")

 class OutputWrapper(IOWrapper):
     def write(self, buf):
         self.cmdp.send(self.name, buf)

     def read(self, arg=None):
         return ''

 class RemoteInterp:
     def __init__(self, sock):
         self._sock = SocketProtocol(sock)
         self._cmd = CommandProtocol(self._sock)
         self._cmd.registerHandler(self)

     def run(self):
         try:
             while 1:
                 self._cmd.dispatch()
         except EOFError:
             pass

     def handle_execfile(self, arg):
         self._cmd.reply()
         io = StdioRedirector(InputWrapper("stdin", self._cmd),
                              OutputWrapper("stdout", self._cmd),
                              OutputWrapper("stderr", self._cmd))
         io.redirect()
         execfile(arg, {'__name__':'__main__'})
         io.restore()
         self._cmd.send("terminated")

     def handle_quit(self, arg):
         self._cmd.reply()
         self._cmd.close()

 def startRemoteInterp(id):
     import os
     # UNIX domain sockets are simpler for starters
     sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
     sock.bind("/var/tmp/ri.%s" % id)
     try:
         sock.listen(1)
         cli, addr = sock.accept()
         rinterp = RemoteInterp(cli)
         rinterp.run()
     finally:
         os.unlink("/var/tmp/ri.%s" % id)

 class RIClient:
     """Client of the remote interpreter"""
     def __init__(self, sock):
         self._sock = SocketProtocol(sock)
         self._cmd = CommandProtocol(self._sock)
         self._cmd.registerHandler(self)

     def execfile(self, file):
         self._cmd.send("execfile", file)

     def run(self):
         try:
             while 1:
                 self._cmd.dispatch()
         except EOFError:
             pass

     def handle_stdout(self, buf):
         sys.stdout.write(buf)
 ##        sys.stdout.flush()

     def handle_stderr(self, buf):
         sys.stderr.write(buf)

     def handle_stdin(self, arg):
         if arg == "readline":
             return sys.stdin.readline()
         i = arg.find(",") + 1
         bytes = int(arg[i:])
         if bytes == 0:
             return sys.stdin.read()
         else:
             return sys.stdin.read(bytes)

     def handle_terminated(self, arg):
         self._cmd.reply()
         self._cmd.send("quit")
         self._cmd.close()

 def riExec(id, file):
     sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
     sock.connect("/var/tmp/ri.%s" % id)
     cli = RIClient(sock)
     cli.execfile(file)
     cli.run()

 if __name__ == "__main__":
     import getopt

     SERVER = 1
     opts, args = getopt.getopt(sys.argv[1:], 'cv')
     for o, v in opts:
         if o == '-c':
             SERVER = 0
         elif o == '-v':
             VERBOSE = sys.stderr
     id = args[0]

     if SERVER:
         startRemoteInterp(id)
     else:
         file = args[1]
         riExec(id, file)
	import select
	import socket
	import struct
	import sys
	import types

	VERBOSE = None

	class SocketProtocol:
	"""A simple protocol for sending strings across a socket"""
	BUF_SIZE = 8192

	def __init__(self, sock):
	self.sock = sock
	self._buffer = ''
	self._closed = 0

	def close(self):
	self._closed = 1
	self.sock.close()

	def send(self, buf):
	"""Encode buf and write it on the socket"""
	if VERBOSE:
	VERBOSE.write('send %d:%s\n' % (len(buf), `buf`))
	self.sock.send('%d:%s' % (len(buf), buf))

	def receive(self, timeout=0):
	"""Get next complete string from socket or return None

	Raise EOFError on EOF
	"""
	buf = self._read_from_buffer()
	if buf is not None:
	return buf
	recvbuf = self._read_from_socket(timeout)
	if recvbuf is None:
	return None
	if recvbuf == '' and self._buffer == '':
	raise EOFError
	if VERBOSE:
	VERBOSE.write('recv %s\n' % `recvbuf`)
	self._buffer = self._buffer + recvbuf
	r = self._read_from_buffer()
	return r

	def _read_from_socket(self, timeout):
	"""Does not block"""
	if self._closed:
	return ''
	if timeout is not None:
	r, w, x = select.select([self.sock], [], [], timeout)
	if timeout is None or r:
	return self.sock.recv(self.BUF_SIZE)
	else:
	return None

	def _read_from_buffer(self):
	buf = self._buffer
	i = buf.find(':')
	if i == -1:
	return None
	buflen = int(buf[:i])
	enclen = i + 1 + buflen
	if len(buf) >= enclen:
	s = buf[i+1:enclen]
	self._buffer = buf[enclen:]
	return s
	else:
	self._buffer = buf
	return None

	# helpers for registerHandler method below

	def get_methods(obj):
	methods = []
	for name in dir(obj):
	attr = getattr(obj, name)
	if callable(attr):
	methods.append(name)
	if type(obj) == types.InstanceType:
	methods = methods + get_methods(obj.__class__)
	if type(obj) == types.ClassType:
	for super in obj.__bases__:
	methods = methods + get_methods(super)
	return methods

	class CommandProtocol:
	def __init__(self, sockp):
	self.sockp = sockp
	self.seqno = 0
	self.handlers = {}

	def close(self):
	self.sockp.close()
	self.handlers.clear()

	def registerHandler(self, handler):
	"""A Handler is an object with handle_XXX methods"""
	for methname in get_methods(handler):
	if methname[:7] == "handle_":
	name = methname[7:]
	self.handlers[name] = getattr(handler, methname)

	def send(self, cmd, arg='', seqno=None):
	if arg:
	msg = "%s %s" % (cmd, arg)
	else:
	msg = cmd
	if seqno is None:
	seqno = self.get_seqno()
	msgbuf = self.encode_seqno(seqno) + msg
	self.sockp.send(msgbuf)
	if cmd == "reply":
	return
	reply = self.sockp.receive(timeout=None)
	r_cmd, r_arg, r_seqno = self._decode_msg(reply)
	assert r_seqno == seqno and r_cmd == "reply", "bad reply"
	return r_arg

	def _decode_msg(self, msg):
	seqno = self.decode_seqno(msg[:self.SEQNO_ENC_LEN])
	msg = msg[self.SEQNO_ENC_LEN:]
	parts = msg.split(" ", 2)
	if len(parts) == 1:
	cmd = msg
	arg = ''
	else:
	cmd = parts[0]
	arg = parts[1]
	return cmd, arg, seqno

	def dispatch(self):
	msg = self.sockp.receive()
	if msg is None:
	return
	cmd, arg, seqno = self._decode_msg(msg)
	self._current_reply = seqno
	h = self.handlers.get(cmd, self.default_handler)
	try:
	r = h(arg)
	except TypeError, msg:
	raise TypeError, "handle_%s: %s" % (cmd, msg)
	if self._current_reply is None:
	if r is not None:
	sys.stderr.write("ignoring %s return value type %s\n" % \
	(cmd, type(r).__name__))
	return
	if r is None:
	r = ''
	if type(r) != types.StringType:
	raise ValueError, "invalid return type for %s" % cmd
	self.send("reply", r, seqno=seqno)

	def reply(self, arg=''):
	"""Send a reply immediately

	otherwise reply will be sent when handler returns
	"""
	self.send("reply", arg, self._current_reply)
	self._current_reply = None

	def default_handler(self, arg):
	sys.stderr.write("WARNING: unhandled message %s\n" % arg)
	return ''

	SEQNO_ENC_LEN = 4

	def get_seqno(self):
	seqno = self.seqno
	self.seqno = seqno + 1
	return seqno

	def encode_seqno(self, seqno):
	return struct.pack("I", seqno)

	def decode_seqno(self, buf):
	return struct.unpack("I", buf)[0]


	class StdioRedirector:
	"""Redirect sys.std{in,out,err} to a set of file-like objects"""

	def __init__(self, stdin, stdout, stderr):
	self.stdin = stdin
	self.stdout = stdout
	self.stderr = stderr

	def redirect(self):
	self.save()
	sys.stdin = self.stdin
	sys.stdout = self.stdout
	sys.stderr = self.stderr

	def save(self):
	self._stdin = sys.stdin
	self._stdout = sys.stdout
	self._stderr = sys.stderr

	def restore(self):
	sys.stdin = self._stdin
	sys.stdout = self._stdout
	sys.stderr = self._stderr

	class IOWrapper:
	"""Send output from a file-like object across a SocketProtocol

	XXX Should this be more tightly integrated with the CommandProtocol?
	"""

	def __init__(self, name, cmdp):
	self.name = name
	self.cmdp = cmdp
	self.buffer = []

	class InputWrapper(IOWrapper):
	def write(self, buf):
	# XXX what should this do on Windows?
	raise IOError, (9, '[Errno 9] Bad file descriptor')

	def read(self, arg=None):
	if arg is not None:
	if arg <= 0:
	return ''
	else:
	arg = 0
	return self.cmdp.send(self.name, "read,%s" % arg)

	def readline(self):
	return self.cmdp.send(self.name, "readline")

	class OutputWrapper(IOWrapper):
	def write(self, buf):
	self.cmdp.send(self.name, buf)

	def read(self, arg=None):
	return ''

	class RemoteInterp:
	def __init__(self, sock):
	self._sock = SocketProtocol(sock)
	self._cmd = CommandProtocol(self._sock)
	self._cmd.registerHandler(self)

	def run(self):
	try:
	while 1:
	self._cmd.dispatch()
	except EOFError:
	pass

	def handle_execfile(self, arg):
	self._cmd.reply()
	io = StdioRedirector(InputWrapper("stdin", self._cmd),
	OutputWrapper("stdout", self._cmd),
	OutputWrapper("stderr", self._cmd))
	io.redirect()
	execfile(arg, {'__name__':'__main__'})
	io.restore()
	self._cmd.send("terminated")

	def handle_quit(self, arg):
	self._cmd.reply()
	self._cmd.close()

	def startRemoteInterp(id):
	import os
	# UNIX domain sockets are simpler for starters
	sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
	sock.bind("/var/tmp/ri.%s" % id)
	try:
	sock.listen(1)
	cli, addr = sock.accept()
	rinterp = RemoteInterp(cli)
	rinterp.run()
	finally:
	os.unlink("/var/tmp/ri.%s" % id)

	class RIClient:
	"""Client of the remote interpreter"""
	def __init__(self, sock):
	self._sock = SocketProtocol(sock)
	self._cmd = CommandProtocol(self._sock)
	self._cmd.registerHandler(self)

	def execfile(self, file):
	self._cmd.send("execfile", file)

	def run(self):
	try:
	while 1:
	self._cmd.dispatch()
	except EOFError:
	pass

	def handle_stdout(self, buf):
	sys.stdout.write(buf)
	## sys.stdout.flush()

	def handle_stderr(self, buf):
	sys.stderr.write(buf)

	def handle_stdin(self, arg):
	if arg == "readline":
	return sys.stdin.readline()
	i = arg.find(",") + 1
	bytes = int(arg[i:])
	if bytes == 0:
	return sys.stdin.read()
	else:
	return sys.stdin.read(bytes)

	def handle_terminated(self, arg):
	self._cmd.reply()
	self._cmd.send("quit")
	self._cmd.close()

	def riExec(id, file):
	sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
	sock.connect("/var/tmp/ri.%s" % id)
	cli = RIClient(sock)
	cli.execfile(file)
	cli.run()

	if __name__ == "__main__":
	import getopt

	SERVER = 1
	opts, args = getopt.getopt(sys.argv[1:], 'cv')
	for o, v in opts:
	if o == '-c':
	SERVER = 0
	elif o == '-v':
	VERBOSE = sys.stderr
	id = args[0]

	if SERVER:
	startRemoteInterp(id)
	else:
	file = args[1]
	riExec(id, file)