view rpc.py @ 61:b6dc43e6f6f0

Add code to measure phase difference between 2 signals by sampling from the cro.
author Daniel O'Connor <doconnor@gsoft.com.au>
date Fri, 08 Jan 2021 14:06:27 +1030
parents 91b476ebc0f2
children
line wrap: on
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"A an RPC module, with optimizations for VXI-11 rpc calls"
_rcsid="$Id: rpc.py 323 2011-04-06 19:10:03Z marcus $"

#this module is 99% from the python distribution, Demo/rpc/rpc.py, with a few modifications 
#by Marcus Mendenhall to improve timeout handling, etc.  It probably should follow any licensing 
#intent of whoever originated it.

# Sun RPC version 2 -- RFC1057.

# XXX There should be separate exceptions for the various reasons why
# XXX an RPC can fail, rather than using RuntimeError for everything

# XXX The UDP version of the protocol resends requests when it does
# XXX not receive a timely reply -- use only for idempotent calls!

# XXX There is no provision for call timeout on TCP connections
# Now there is, on receives. 2003.02.20 Marcus Mendenhall, Vanderbilt University marcus.h.mendenhall@vanderbilt.edu

import xdrlib as xdr
import socket
import os
from exceptions import *

RPCVERSION = 2

CALL = 0
REPLY = 1

AUTH_NULL = 0
AUTH_UNIX = 1
AUTH_SHORT = 2
AUTH_DES = 3

MSG_ACCEPTED = 0
MSG_DENIED = 1

SUCCESS = 0				# RPC executed successfully
PROG_UNAVAIL  = 1			# remote hasn't exported program
PROG_MISMATCH = 2			# remote can't support version #
PROC_UNAVAIL  = 3			# program can't support procedure
GARBAGE_ARGS  = 4			# procedure can't decode params

RPC_MISMATCH = 0			# RPC version number != 2
AUTH_ERROR = 1				# remote can't authenticate caller

AUTH_BADCRED      = 1			# bad credentials (seal broken)
AUTH_REJECTEDCRED = 2			# client must begin new session
AUTH_BADVERF      = 3			# bad verifier (seal broken)
AUTH_REJECTEDVERF = 4			# verifier expired or replayed
AUTH_TOOWEAK      = 5			# rejected for security reasons


class Packer(xdr.Packer):

	def pack_auth(self, auth):
		flavor, stuff = auth
		self.pack_enum(flavor)
		self.pack_opaque(stuff)

	def pack_auth_unix(self, stamp, machinename, uid, gid, gids):
		self.pack_uint(stamp)
		self.pack_string(machinename)
		self.pack_uint(uid)
		self.pack_uint(gid)
		self.pack_uint(len(gids))
		for i in gids:
			self.pack_uint(i)

	def pack_callheader(self, xid, prog, vers, proc, cred, verf):
		self.pack_uint(xid)
		self.pack_enum(CALL)
		self.pack_uint(RPCVERSION)
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(proc)
		self.pack_auth(cred)
		self.pack_auth(verf)
		# Caller must add procedure-specific part of call

	def pack_replyheader(self, xid, verf):
		self.pack_uint(xid)
		self.pack_enum(REPLY)
		self.pack_uint(MSG_ACCEPTED)
		self.pack_auth(verf)
		self.pack_enum(SUCCESS)
		# Caller must add procedure-specific part of reply


# Exceptions
BadRPCFormat = 'rpc.BadRPCFormat'
BadRPCVersion = 'rpc.BadRPCVersion'
GarbageArgs = 'rpc.GarbageArgs'

class Unpacker(xdr.Unpacker):

	def unpack_auth(self):
		flavor = self.unpack_enum()
		stuff = self.unpack_opaque()
		return (flavor, stuff)

	def unpack_callheader(self):
		xid = self.unpack_uint(xid)
		temp = self.unpack_enum()
		if temp != CALL:
			raise BadRPCFormat('no CALL but ' + repr(temp))
		temp = self.unpack_uint()
		if temp != RPCVERSION:
			raise BadRPCVerspion('bad RPC version ' + repr(temp))
		prog = self.unpack_uint()
		vers = self.unpack_uint()
		proc = self.unpack_uint()
		cred = self.unpack_auth()
		verf = self.unpack_auth()
		return xid, prog, vers, proc, cred, verf
		# Caller must add procedure-specific part of call

	def unpack_replyheader(self):
		xid = self.unpack_uint()
		mtype = self.unpack_enum()
		if mtype != REPLY:
			raise RuntimeError('no REPLY but ' + repr(mtype))
		stat = self.unpack_enum()
		if stat == MSG_DENIED:
			stat = self.unpack_enum()
			if stat == RPC_MISMATCH:
				low = self.unpack_uint()
				high = self.unpack_uint()
				raise RuntimeError('MSG_DENIED: RPC_MISMATCH: ' + repr((low, high)))
			if stat == AUTH_ERROR:
				stat = self.unpack_uint()
				raise RuntimeError('MSG_DENIED: AUTH_ERROR: ' + repr(stat))
			raise RuntimeError('MSG_DENIED: ' + repr(stat))
		if stat != MSG_ACCEPTED:
			raise RuntimeError('Neither MSG_DENIED nor MSG_ACCEPTED: ' + repr(stat))
		verf = self.unpack_auth()
		stat = self.unpack_enum()
		if stat == PROG_UNAVAIL:
			raise RuntimeError('call failed: PROG_UNAVAIL')
		if stat == PROG_MISMATCH:
			low = self.unpack_uint()
			high = self.unpack_uint()
			raise RuntimeError('call failed: PROG_MISMATCH: ' + repr((low, high)))
		if stat == PROC_UNAVAIL:
			raise RuntimeError('call failed: PROC_UNAVAIL')
		if stat == GARBAGE_ARGS:
			raise RuntimeError('call failed: GARBAGE_ARGS')
		if stat != SUCCESS:
			raise RuntimeError('call failed: ' + repr(stat))
		return xid, verf
		# Caller must get procedure-specific part of reply


# Subroutines to create opaque authentication objects

def make_auth_null():
	return ''

def make_auth_unix(seed, host, uid, gid, groups):
	p = Packer()
	p.pack_auth_unix(seed, host, uid, gid, groups)
	return p.get_buf()

def make_auth_unix_default():
	try:
		from os import getuid, getgid
		uid = getuid()
		gid = getgid()
	except ImportError:
		uid = gid = 0
	import time
	return make_auth_unix(int(time.time()-unix_epoch()), \
		  socket.gethostname(), uid, gid, [])

_unix_epoch = -1
def unix_epoch():
    """Very painful calculation of when the Unix Epoch is.

    This is defined as the return value of time.time() on Jan 1st,
    1970, 00:00:00 GMT.

    On a Unix system, this should always return 0.0.  On a Mac, the
    calculations are needed -- and hard because of integer overflow
    and other limitations.

    """
    global _unix_epoch
    if _unix_epoch >= 0: return _unix_epoch
    import time
    now = time.time()
    localt = time.localtime(now)	# (y, m, d, hh, mm, ss, ..., ..., ...)
    gmt = time.gmtime(now)
    offset = time.mktime(localt) - time.mktime(gmt)
    y, m, d, hh, mm, ss = 1970, 1, 1, 0, 0, 0
    offset, ss = divmod(ss + offset, 60)
    offset, mm = divmod(mm + offset, 60)
    offset, hh = divmod(hh + offset, 24)
    d = d + offset
    _unix_epoch = time.mktime((y, m, d, hh, mm, ss, 0, 0, 0))
    print("Unix epoch:", time.ctime(_unix_epoch))
    return _unix_epoch


# Common base class for clients

class Client:

	def __init__(self, host, prog, vers, port):
		self.host = host
		self.prog = prog
		self.vers = vers
		self.port = port
		self.makesocket() # Assigns to self.sock
		self.bindsocket()
		self.connsocket()
		self.lastxid = 0 # XXX should be more random?
		self.addpackers()
		self.cred = None
		self.verf = None

	def close(self):
		self.sock.close()

	def makesocket(self):
		# This MUST be overridden
		raise RuntimeError('makesocket not defined')

	def connsocket(self):
		# Override this if you don't want/need a connection
		self.sock.connect((self.host, self.port))

	def bindsocket(self):
		# Override this to bind to a different port (e.g. reserved)
		self.sock.bind(('', 0))

	def addpackers(self):
		# Override this to use derived classes from Packer/Unpacker
		self.packer = Packer()
		self.unpacker = Unpacker('')

	def make_call(self, proc, args, pack_func, unpack_func):
		#print "make_call() args = " + str(args)
		# Don't normally override this (but see Broadcast)
		if pack_func is None and args is not None:
			raise TypeError('non-null args with null pack_func')
		#print "packed args"
		self.start_call(proc)
		if pack_func:
			pack_func(args)
		self.do_call()
		if unpack_func:
			result = unpack_func()
		else:
			result = None
		#print "result = " + str(result)
		self.unpacker.done()
		return result

	def start_call(self, proc):
		# Don't override this
		self.lastxid = xid = self.lastxid + 1
		cred = self.mkcred()
		verf = self.mkverf()
		p = self.packer
		p.reset()
		p.pack_callheader(xid, self.prog, self.vers, proc, cred, verf)

	def do_call(self):
		# This MUST be overridden
		raise RuntimeError('do_call not defined')

	def mkcred(self):
		# Override this to use more powerful credentials
		if self.cred == None:
			self.cred = (AUTH_NULL, make_auth_null())
		return self.cred

	def mkverf(self):
		# Override this to use a more powerful verifier
		if self.verf == None:
			self.verf = (AUTH_NULL, make_auth_null())
		return self.verf

	def call_0(self):		# Procedure 0 is always like this
		return self.make_call(0, None, None, None)


# Record-Marking standard support

try:
	from select import select as _select
except:
	_select=None

def sendfrag_with_timeout(sock,  last, frag, timeout_seconds=None):
	x = len(frag)
	if last: x = x | 0x80000000
	header = (chr(int(x>>24 & 0xff)) + chr(int(x>>16 & 0xff)) + \
		  chr(int(x>>8 & 0xff)) + chr(int(x & 0xff)))
	block=header+frag
	n=len(block)
	nsent=0
	while(nsent<n):
		if _select and timeout_seconds:
			rlist, wlist, xlist=_select([],[sock],[], timeout_seconds)
			if not wlist:
				raise EOFError("Blocked write in sendfrag()")		
		nsent+=sock.send(block[nsent:])
	
def recvfrag_with_timeout(sock, timeout_seconds=None):
	#print "receiving from ", sock
	if _select and timeout_seconds:
		#print "Selecting with timeout...", timeout_seconds
		rlist, wlist, xlist=_select([sock],[],[], timeout_seconds)
		if not rlist:
			raise EOFError("No header at all in recvfrag()")

	header = sock.recv(4)
	if len(header) < 4:
		raise EOFError
	x = int(ord(header[0]))<<24 | ord(header[1])<<16 | \
	    ord(header[2])<<8 | ord(header[3])
	last = ((x & 0x80000000) != 0)
	n = int(x & 0x7fffffff)
	
	frag=''
	
	while(len(frag) < n):	
		if _select and timeout_seconds:
			#print "Selecting with timeout...", timeout_seconds
			rlist, wlist, xlist=_select([sock],[],[], timeout_seconds)
			if not rlist:
				raise EOFError("No data after header in recvfrag()")
		frag += sock.recv(n-len(frag))
				
	return last, frag


def recvrecord(sock, timeout_seconds=None):
	record = ''
	last = 0
	while not last:
		last, frag = recvfrag_with_timeout(sock, timeout_seconds)
		record = record + frag
	return record

def sendrecord(sock, record, timeout_seconds=None):
	sendfrag_with_timeout(sock, 1, record, timeout_seconds)



# Try to bind to a reserved port (must be root)

last_resv_port_tried = None
def bindresvport(sock, host):
	global last_resv_port_tried
	FIRST, LAST = 600, 1024 # Range of ports to try
	if last_resv_port_tried == None:
		import os
		last_resv_port_tried = FIRST + os.getpid() % (LAST-FIRST)
	for i in list(range(last_resv_port_tried, LAST)) + \
		  list(range(FIRST, last_resv_port_tried)):
		last_resv_port_tried = i
		try:
			sock.bind((host, i))
			return last_resv_port_tried
		except socket.error as xxx_todo_changeme:
			(errno, msg) = xxx_todo_changeme.args
			if errno != 114:
				raise socket.error(errno, msg)
	raise RuntimeError('can\'t assign reserved port')


# Client using TCP to a specific port

class RawTCPClient(Client):

	select_timeout_seconds=None
	
	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

	def do_call(self):
		call = self.packer.get_buf()
		sendrecord(self.sock, call, self.select_timeout_seconds)
		reply = recvrecord(self.sock, self.select_timeout_seconds)
		u = self.unpacker
		u.reset(reply)
		xid, verf = u.unpack_replyheader()
		if xid != self.lastxid:
			# Can't really happen since this is TCP...
			raise RuntimeError('wrong xid in reply ' + repr(xid) + \
				' instead of ' + repr(self.lastxid))


# Client using UDP to a specific port

class RawUDPClient(Client):

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)

	def do_call(self):
		call = self.packer.get_buf()
		self.sock.send(call)
		try:
			from select import select
		except ImportError:
			print('WARNING: select not found, RPC may hang')
			select = None
		BUFSIZE = 8192 # Max UDP buffer size
		timeout = 1
		count = 5
		while 1:
			r, w, x = [self.sock], [], []
			if select:
				r, w, x = select(r, w, x, timeout)
			if self.sock not in r:
				count = count - 1
				if count < 0: raise RuntimeError('timeout')
				if timeout < 25: timeout = timeout *2
##				print 'RESEND', timeout, count
				self.sock.send(call)
				continue
			reply = self.sock.recv(BUFSIZE)
			u = self.unpacker
			u.reset(reply)
			xid, verf = u.unpack_replyheader()
			if xid != self.lastxid:
##				print 'BAD xid'
				continue
			break


# Client using UDP broadcast to a specific port

class RawBroadcastUDPClient(RawUDPClient):

	def __init__(self, bcastaddr, prog, vers, port):
		RawUDPClient.__init__(self, bcastaddr, prog, vers, port)
		self.reply_handler = None
		self.timeout = 30

	def connsocket(self):
		# Don't connect -- use sendto
		self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)

	def set_reply_handler(self, reply_handler):
		self.reply_handler = reply_handler

	def set_timeout(self, timeout):
		self.timeout = timeout # Use None for infinite timeout

	def make_call(self, proc, args, pack_func, unpack_func):
		if pack_func is None and args is not None:
			raise TypeError('non-null args with null pack_func')
		self.start_call(proc)
		if pack_func:
			pack_func(args)
		call = self.packer.get_buf()
		self.sock.sendto(call, (self.host, self.port))
		try:
			from select import select
		except ImportError:
			print('WARNING: select not found, broadcast will hang')
			select = None
		BUFSIZE = 8192 # Max UDP buffer size (for reply)
		replies = []
		if unpack_func is None:
			def dummy(): pass
			unpack_func = dummy
		while 1:
			r, w, x = [self.sock], [], []
			if select:
				if self.timeout is None:
					r, w, x = select(r, w, x)
				else:
					r, w, x = select(r, w, x, self.timeout)
			if self.sock not in r:
				break
			reply, fromaddr = self.sock.recvfrom(BUFSIZE)
			u = self.unpacker
			u.reset(reply)
			xid, verf = u.unpack_replyheader()
			if xid != self.lastxid:
##				print 'BAD xid'
				continue
			reply = unpack_func()
			self.unpacker.done()
			replies.append((reply, fromaddr))
			if self.reply_handler:
				self.reply_handler(reply, fromaddr)
		return replies


# Port mapper interface

# Program number, version and (fixed!) port number
PMAP_PROG = 100000
PMAP_VERS = 2
PMAP_PORT = 111

# Procedure numbers
PMAPPROC_NULL = 0			# (void) -> void
PMAPPROC_SET = 1			# (mapping) -> bool
PMAPPROC_UNSET = 2			# (mapping) -> bool
PMAPPROC_GETPORT = 3			# (mapping) -> unsigned int
PMAPPROC_DUMP = 4			# (void) -> pmaplist
PMAPPROC_CALLIT = 5			# (call_args) -> call_result

# A mapping is (prog, vers, prot, port) and prot is one of:

IPPROTO_TCP = 6
IPPROTO_UDP = 17

# A pmaplist is a variable-length list of mappings, as follows:
# either (1, mapping, pmaplist) or (0).

# A call_args is (prog, vers, proc, args) where args is opaque;
# a call_result is (port, res) where res is opaque.


class PortMapperPacker(Packer):

	def pack_mapping(self, mapping):
		prog, vers, prot, port = mapping
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(prot)
		self.pack_uint(port)

	def pack_pmaplist(self, list):
		self.pack_list(list, self.pack_mapping)

	def pack_call_args(self, ca):
		prog, vers, proc, args = ca
		self.pack_uint(prog)
		self.pack_uint(vers)
		self.pack_uint(proc)
		self.pack_opaque(args)


class PortMapperUnpacker(Unpacker):

	def unpack_mapping(self):
		prog = self.unpack_uint()
		vers = self.unpack_uint()
		prot = self.unpack_uint()
		port = self.unpack_uint()
		return prog, vers, prot, port

	def unpack_pmaplist(self):
		return self.unpack_list(self.unpack_mapping)

	def unpack_call_result(self):
		port = self.unpack_uint()
		res = self.unpack_opaque()
		return port, res


class PartialPortMapperClient:

	def addpackers(self):
		self.packer = PortMapperPacker()
		self.unpacker = PortMapperUnpacker('')

	def Set(self, mapping):
		return self.make_call(PMAPPROC_SET, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Unset(self, mapping):
		return self.make_call(PMAPPROC_UNSET, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Getport(self, mapping):
		return self.make_call(PMAPPROC_GETPORT, mapping, \
			self.packer.pack_mapping, \
			self.unpacker.unpack_uint)

	def Dump(self):
		return self.make_call(PMAPPROC_DUMP, None, \
			None, \
			self.unpacker.unpack_pmaplist)

	def Callit(self, ca):
		return self.make_call(PMAPPROC_CALLIT, ca, \
			self.packer.pack_call_args, \
			self.unpacker.unpack_call_result)


class TCPPortMapperClient(PartialPortMapperClient, RawTCPClient):

	def __init__(self, host, port=PMAP_PORT, timeout_seconds=None):
		RawTCPClient.__init__(self, \
			host, PMAP_PROG, PMAP_VERS, port)
		self.select_timeout_seconds=timeout_seconds


class UDPPortMapperClient(PartialPortMapperClient, RawUDPClient):

	def __init__(self, host, port=PMAP_PORT):
		RawUDPClient.__init__(self, \
			host, PMAP_PROG, PMAP_VERS, port)

class BroadcastUDPPortMapperClient(PartialPortMapperClient, \
				   RawBroadcastUDPClient):

	def __init__(self, bcastaddr):
		RawBroadcastUDPClient.__init__(self, \
			bcastaddr, PMAP_PROG, PMAP_VERS, PMAP_PORT)


# Generic clients that find their server through the Port mapper

class TCPClient(RawTCPClient):

	def __init__(self, host, prog, vers, portmap_proxy_host=None, portmap_proxy_port=PMAP_PORT, timeout_seconds=None):
		
		self.select_timeout_seconds=timeout_seconds
		if portmap_proxy_host is None:
			portmap_proxy_host=host #use a proxy to get around firewalled portmappers
		pmap = TCPPortMapperClient(portmap_proxy_host, portmap_proxy_port,timeout_seconds)
		port = pmap.Getport((prog, vers, IPPROTO_TCP, 0))
		pmap.close()
		if port == 0:
			raise RuntimeError('program not registered')
		RawTCPClient.__init__(self, host, prog, vers, port)


class UDPClient(RawUDPClient):

	def __init__(self, host, prog, vers, portmap_proxy_host=None, portmap_proxy_port=PMAP_PORT):
		if portmap_proxy_host is None:
			portmap_proxy_host=host #use a proxy to get around firewalled portmappers
		pmap = UDPPortMapperClient(portmap_proxy_host, portmap_proxy_port)
		port = pmap.Getport((prog, vers, IPPROTO_UDP, 0))
		pmap.close()
		if port == 0:
			raise RuntimeError('program not registered')
		RawUDPClient.__init__(self, host, prog, vers, port)


class BroadcastUDPClient(Client):

	def __init__(self, bcastaddr, prog, vers):
		self.pmap = BroadcastUDPPortMapperClient(bcastaddr)
		self.pmap.set_reply_handler(self.my_reply_handler)
		self.prog = prog
		self.vers = vers
		self.user_reply_handler = None
		self.addpackers()

	def close(self):
		self.pmap.close()

	def set_reply_handler(self, reply_handler):
		self.user_reply_handler = reply_handler

	def set_timeout(self, timeout):
		self.pmap.set_timeout(timeout)

	def my_reply_handler(self, reply, fromaddr):
		port, res = reply
		self.unpacker.reset(res)
		result = self.unpack_func()
		self.unpacker.done()
		self.replies.append((result, fromaddr))
		if self.user_reply_handler is not None:
			self.user_reply_handler(result, fromaddr)

	def make_call(self, proc, args, pack_func, unpack_func):
		self.packer.reset()
		if pack_func:
			pack_func(args)
		if unpack_func is None:
			def dummy(): pass
			self.unpack_func = dummy
		else:
			self.unpack_func = unpack_func
		self.replies = []
		packed_args = self.packer.get_buf()
		dummy_replies = self.pmap.Callit( \
			(self.prog, self.vers, proc, packed_args))
		return self.replies


# Server classes

# These are not symmetric to the Client classes
# XXX No attempt is made to provide authorization hooks yet

class Server:

	def __init__(self, host, prog, vers, port):
		self.host = host # Should normally be '' for default interface
		self.prog = prog
		self.vers = vers
		self.port = port # Should normally be 0 for random port
		self.makesocket() # Assigns to self.sock and self.prot
		self.bindsocket()
		self.host, self.port = self.sock.getsockname()
		self.addpackers()

	def handle(self, call):
		# Don't use unpack_header but parse the header piecewise
		# XXX I have no idea if I am using the right error responses!
		self.unpacker.reset(call)
		self.packer.reset()
		xid = self.unpacker.unpack_uint()
		self.packer.pack_uint(xid)
		temp = self.unpacker.unpack_enum()
		if temp != CALL:
			return None # Not worthy of a reply
		self.packer.pack_uint(REPLY)
		temp = self.unpacker.unpack_uint()
		if temp != RPCVERSION:
			self.packer.pack_uint(MSG_DENIED)
			self.packer.pack_uint(RPC_MISMATCH)
			self.packer.pack_uint(RPCVERSION)
			self.packer.pack_uint(RPCVERSION)
			return self.packer.get_buf()
		self.packer.pack_uint(MSG_ACCEPTED)
		self.packer.pack_auth((AUTH_NULL, make_auth_null()))
		prog = self.unpacker.unpack_uint()
		if prog != self.prog:
			self.packer.pack_uint(PROG_UNAVAIL)
			return self.packer.get_buf()
		vers = self.unpacker.unpack_uint()
		if vers != self.vers:
			self.packer.pack_uint(PROG_MISMATCH)
			self.packer.pack_uint(self.vers)
			self.packer.pack_uint(self.vers)
			return self.packer.get_buf()
		proc = self.unpacker.unpack_uint()
		methname = 'handle_' + repr(proc)
		try:
			meth = getattr(self, methname)
		except AttributeError:
			self.packer.pack_uint(PROC_UNAVAIL)
			return self.packer.get_buf()
		cred = self.unpacker.unpack_auth()
		verf = self.unpacker.unpack_auth()
		try:
			meth() # Unpack args, call turn_around(), pack reply
		except (EOFError, GarbageArgs):
			# Too few or too many arguments
			self.packer.reset()
			self.packer.pack_uint(xid)
			self.packer.pack_uint(REPLY)
			self.packer.pack_uint(MSG_ACCEPTED)
			self.packer.pack_auth((AUTH_NULL, make_auth_null()))
			self.packer.pack_uint(GARBAGE_ARGS)
		return self.packer.get_buf()

	def turn_around(self):
		try:
			self.unpacker.done()
		except RuntimeError:
			raise GarbageArgs
		self.packer.pack_uint(SUCCESS)

	def handle_0(self): # Handle NULL message
		self.turn_around()

	def makesocket(self):
		# This MUST be overridden
		raise RuntimeError('makesocket not defined')

	def bindsocket(self):
		# Override this to bind to a different port (e.g. reserved)
		self.sock.bind((self.host, self.port))

	def addpackers(self):
		# Override this to use derived classes from Packer/Unpacker
		self.packer = Packer()
		self.unpacker = Unpacker('')


class TCPServer(Server):

	def register(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = TCPPortMapperClient(self.host)
		if not p.Set(mapping):
			raise RuntimeError('register failed')

	def unregister(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = TCPPortMapperClient(self.host)
		if not p.Unset(mapping):
			raise RuntimeError('unregister failed')

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
		self.prot = IPPROTO_TCP

	def loop(self):
		self.sock.listen(0)
		while 1:
			self.session(self.sock.accept())

	def session(self, connection):
		sock, (host, port) = connection
		while 1:
			try:
				call = recvrecord(sock)
			except EOFError:
				break
			except socket.error as msg:
				print('socket error:', msg)
				break
			reply = self.handle(call)
			if reply is not None:
				sendrecord(sock, reply)

	def forkingloop(self):
		# Like loop but uses forksession()
		self.sock.listen(0)
		while 1:
			self.forksession(self.sock.accept())

	def forksession(self, connection):
		# Like session but forks off a subprocess
		import os
		# Wait for deceased children
		try:
			while 1:
				pid, sts = os.waitpid(0, 1)
		except os.error:
			pass
		pid = None
		try:
			pid = os.fork()
			if pid: # Parent
				connection[0].close()
				return
			# Child
			self.session(connection)
		finally:
			# Make sure we don't fall through in the parent
			if pid == 0:
				os._exit(0)


class UDPServer(Server):

	def register(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = UDPPortMapperClient(self.host)
		if not p.Set(mapping):
			raise RuntimeError('register failed')

	def unregister(self):
		mapping = self.prog, self.vers, self.prot, self.port
		p = UDPPortMapperClient(self.host)
		if not p.Unset(mapping):
			raise RuntimeError('unregister failed')

	def makesocket(self):
		self.sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
		self.prot = IPPROTO_UDP

	def loop(self):
		while 1:
			self.session()

	def session(self):
		call, host_port = self.sock.recvfrom(8192)
		reply = self.handle(call)
		if reply != None:
			self.sock.sendto(reply, host_port)


# Simple test program -- dump local portmapper status

def test():
	pmap = UDPPortMapperClient('')
	list = pmap.Dump()
	list.sort()
	for prog, vers, prot, port in list:
		print(prog, vers, end=' ')
		if prot == IPPROTO_TCP: print('tcp', end=' ')
		elif prot == IPPROTO_UDP: print('udp', end=' ')
		else: print(prot, end=' ')
		print(port)


# Test program for broadcast operation -- dump everybody's portmapper status

def testbcast():
	import sys
	if sys.argv[1:]:
		bcastaddr = sys.argv[1]
	else:
		bcastaddr = '<broadcast>'
	def rh(reply, fromaddr):
		host, port = fromaddr
		print(host + '\t' + repr(reply))
	pmap = BroadcastUDPPortMapperClient(bcastaddr)
	pmap.set_reply_handler(rh)
	pmap.set_timeout(5)
	replies = pmap.Getport((100002, 1, IPPROTO_UDP, 0))


# Test program for server, with corresponding client
# On machine A: python -c 'import rpc; rpc.testsvr()'
# On machine B: python -c 'import rpc; rpc.testclt()' A
# (A may be == B)

def testsvr():
	# Simple test class -- proc 1 doubles its string argument as reply
	class S(UDPServer):
		def handle_1(self):
			arg = self.unpacker.unpack_string()
			self.turn_around()
			print('RPC function 1 called, arg', repr(arg))
			self.packer.pack_string(arg + arg)
	#
	s = S('', 0x20000000, 1, 0)
	try:
		s.unregister()
	except RuntimeError as msg:
		print('RuntimeError:', msg, '(ignored)')
	s.register()
	print('Service started...')
	try:
		s.loop()
	finally:
		s.unregister()
		print('Service interrupted.')


def testclt():
	import sys
	if sys.argv[1:]: host = sys.argv[1]
	else: host = ''
	# Client for above server
	class C(UDPClient):
		def call_1(self, arg):
			return self.make_call(1, arg, \
				self.packer.pack_string, \
				self.unpacker.unpack_string)
	c = C(host, 0x20000000, 1)
	print('making call...')
	reply = c.call_1('hello, world, ')
	print('call returned', repr(reply))

def testclt2():
	import sys
	host = '127.0.0.1'
	# Client for above server
	class C(UDPClient):
		def call_1(self, arg):
			return self.make_call(1, arg, \
				self.packer.pack_string, \
				self.unpacker.unpack_string)
	c = C(host, 0x20000000, 1)
	print('making call...')
	reply = c.call_1('hello, world, ')
	print('call returned', repr(reply))